CN201347411Y - Refrigerating device used in glass autoclave - Google Patents

Abstract

The utility model provides a refrigerating device used in glass autoclave which includes a left side and a right side refrigerating branch pipes, a left and a right water admitting pipes, a total water admitting pipe, a drain pipe, a water pump, a middle refrigerating branch pip, a vertical drain and a main part of a control cabinet; two sides in the autoclave are equipped with the vertical drains respectively, the vertical drain is equipped with the middle refrigerating branch pipe, an upper part in the autoclave is equipped with the left and the right water admitting pipes, a down part of the vertical drain is equipped with the left and the right drain pipes, a left upper part in the autoclave is equipped with three to six pieces left side refrigerating branch pipes, a right upper part in the autoclave is equipped with three to six pieces right refrigerating branch pipes, the branch pipes are equipped with fins respectively; the left side refrigerating branch pipe on the left upper part connects with the left water admitting pipe, the right refrigerating branch pipe on the right upper part connects with the right water admitting pipe respectively; an outside of the autoclave is equipped with the total water admitting pipe and the total drain pipe, a down part of the outside of the autoclave is equipped with a water pool, the water pool is equipped with the water pump in the inner; an outside of the autoclave is equipped with the control cabinet, the water pump connects with the control cabinet through a conducting wire, the control cabinet is equipped with a control button, an instrumentation and a touch screen, an external power connects with the control cabinet.

Description

The refrigerating unit that uses in the glass autoclave

Technical field

The utility model relates to the refrigerating unit that uses in a kind of glass autoclave, belongs to the glass working machine apparatus field.

Background technology

The glass autoclave is a kind of common equipment that carries out deep processing for glass specially, the refrigerating unit that uses in the existing glass autoclave mainly is to the cooling of lowering the temperature in the still by water-cooled tube, its water-cooled tube is to be formed by connecting by two groups of copper pipes, be installed in the rear end of kettle, be provided with a water-in and a water outlet, be provided with a blower fan at the kettle afterbody, outside kettle, be provided with a cooling basin, water pump is installed in the cooling basin, when opening water pump, water in the cooling pool flows in still along water pipe under the effect of water pump, and the blower fan of kettle afterbody exchanges the low temperature of warm air in the still and water-cooled tube, thereby reaches cooling purpose.Because the copper pipe of this refrigerating unit is thinner, cooling area is little, and the discharge in the unit time is little, and its cooling time is long, and cooling performance is undesirable; Secondly, the blower fan of kettle afterbody is consumed power not only, increases production cost, and the intense noise that is produced also can cause certain sound pollution to Working environment in the course of the work.

The utility model content

The purpose of this utility model is to design at the problems referred to above the refrigerating unit that uses in a kind of glass autoclave is provided, and the cooling area of this refrigerating unit is big, good cooling results, there is not sound pollution, save electric energy, can shorten greatly, save production cost the cooling time in the still.

In order to achieve the above object, the utility model is realized by following technique means.

The refrigerating unit that uses in the glass autoclave, it comprises left side cooling arm, left side water inlet pipe, right water inlet pipe, right side cooling arm, the water inlet manifold road, the main discharge pipe road, the pond, water pump, middle part cooling arm, upright row, right water shoot, the left bank water pipe, housing, the water-in joint, the stainless steel guard, water outlet joint major portion, wherein: the both sides in the still tube are provided with respectively upright row are installed, upright row uses inside diameter to be welded as the galvanized pipe of 20mm, on upright row, be provided with cooling arm in middle part is installed, arm is cooled off at the middle part to be weldingly fixed on the upright row, upper end in the still tube is provided with left water inlet pipe, right water inlet pipe, the middle part cooling arm water-in joint by its upper end respectively with left water inlet pipe, right water inlet pipe is connected; Lower end upright row is provided with right water shoot and left bank water pipe, and cooling arm in middle part is connected with right water shoot, left bank water pipe respectively by the water outlet joint of its lower end; Arranged outside upright row is equipped with the U-shaped stainless steel mirror board, is provided with in upright row's inboard the stainless steel net defence is installed; Left upper end in the still tube is provided with 3～6 left side cooling arms, be respectively arranged with left side cooling arm fin on the left side cooling arm, upper right side in the still tube is provided with 3～6 right side cooling arms, be respectively arranged with right cooling arm fin on the right side cooling arm, the left side cooling arm of left upper end is connected with left water inlet pipe respectively, and the right side cooling arm of upper right side is connected with right water inlet pipe respectively; Side in still tube outside is provided with water inlet manifold road, main discharge pipe road, lower end in still tube outside is provided with the pond, inside in the pond is provided with water pump, and the upper end in water inlet manifold road is connected with left water inlet pipe, right water inlet pipe by flange, and the lower end in water inlet manifold road is connected with water pump; One end in main discharge pipe road is connected with right water shoot, left bank water pipe by flange, and the other end leads in the pond.

Side in still tube outside is provided with housing, and an end of lead links to each other with water pump, and the other end links to each other with housing, and housing is provided with push button, instrument, touch-screen, and external source links to each other with housing.

During use, processed glass article stops heating in still, when beginning the still internal cooling lowered the temperature, housing can be opened water pump automatically by default in advance sequence of control, begin behind the starting mode of pump pond internal cooling water is transported in left water inlet pipe and the right water inlet pipe by the water inlet manifold road, left side water inlet pipe, right water inlet pipe is transported to water coolant left side cooling arm respectively again, right side cooling arm and middle part cooling arm, water coolant is by right water shoot then, the left bank water pipe is transported in the main discharge pipe road, water coolant flows in the pond by the main discharge pipe road, water coolant can play the effect that cools in the glass autoclave through circulating like this.

The utility model mainly has following beneficial effect:

The cooling area of this refrigerating unit is big, and good cooling results does not have sound pollution, saves electric energy, can shorten greatly the cooling time in the still, saves production cost.

Description of drawings

Accompanying drawing 1 is the longitudinal section and the syndeton synoptic diagram thereof of the refrigerating unit still tube of use in the utility model glass autoclave;

Accompanying drawing 2 is two dimensional structure synoptic diagram that arm is cooled off at upright row of the refrigerating unit of use in the utility model glass autoclave and top set middle part thereof.

As shown in the figure, each structure division of the refrigerating unit that uses in the above-mentioned glass autoclave is represented by following Arabic numerals:

1. arm is cooled off in the left side, 2. the arm fin is cooled off on a left side, 3. left water inlet pipe, 4. flange, 5. right water inlet pipe, 6. right cooling arm fin, 7. arm is cooled off on the right side, 8. water inlet manifold road, 9. main discharge pipe road, 10. water coolant, 11. pond, 12. water pump, 13. first flange, 14. middle part cooling arm, 15. second flange, 16.U shape stainless steel mirror board, 17. upright row, 18. the 3rd flange, 19. right water shoot, 20. left bank water pipe, 21. the 4th flange, 22. lead, 23. housing, 24. push button, 25. instrument, 26. touch-screen, 27. external source, 28. water-in joint, 29. stainless steel net defence, 30. water outlet joint, 31. pipe collar.

The utility model is described in further detail below in conjunction with embodiment and Figure of description:

Embodiment

Embodiment

As shown in Figure 1 and Figure 2, the refrigerating unit that uses in the glass autoclave comprises left side cooling arm 1, left water inlet pipe 3, right water inlet pipe 5, right side cooling arm 7, water inlet manifold road 8, main discharge pipe road 9, pond 11, water pump 12, middle part cooling arm 14, upright row 17, right water shoot 19, left bank water pipe 20, housing 23, water-in joint 28, stainless steel guard 29, water outlet joint 30 major portions.

As shown in Figure 1 and Figure 2, both sides in the still tube are provided with respectively upright row 17 are installed, upright row uses inside diameter to be welded as the galvanized pipe of 20mm, on upright row 17, be provided with cooling arm 14 in middle part is installed, arm 14 is cooled off at the middle part to be weldingly fixed on the upright row 17, upper end in the still tube is provided with left water inlet pipe 3, right water inlet pipe 5, and cooling arm 14 in middle part is connected with left water inlet pipe 3, right water inlet pipe 5 respectively by the water-in joint 28 of its upper end.

As shown in Figure 1 and Figure 2, be provided with right water shoot 19 and left bank water pipe 20 in upright row's 17 lower end, cooling arm 14 in middle part is connected with right water shoot 19, left bank water pipe 20 respectively by the water outlet joint 30 of its lower end; Arranged outside upright row 17 is equipped with U-shaped stainless steel mirror board 16, is provided with in upright row's 17 inboard stainless steel net defence 29 (mainly playing the effect of upright row of protection and middle part cooling arm) is installed; Left upper end in the still tube is provided with 3～6 left side cooling arms 1, be respectively arranged with left side cooling arm fin 2 on the left side cooling arm 1, upper right side in the still tube is provided with 3～6 right side cooling arms 7, (left side cooling arm fin and right cooling arm fin mainly play the area of dissipation that increases cooling tube to be respectively arranged with right cooling arm fin 6 on the right side cooling arm 7, improve the effect of cold and hot exchange efficiency), the left side cooling arm 1 of left upper end is connected with left water inlet pipe 3 respectively, and the right side cooling arm 7 of upper right side is connected with right water inlet pipe 5 respectively; Side in still tube outside is provided with water inlet manifold road 8, main discharge pipe road 9, lower end in still tube outside is provided with pond 11,11 inside is provided with water pump 12 in the pond, the upper end in water inlet manifold road 8 is connected with left water inlet pipe 3, right water inlet pipe 5 by flange 4, and the lower end in water inlet manifold road 8 is connected with water pump 12; One end in main discharge pipe road 9 is connected with right water shoot 19, left bank water pipe 20 by flange, and the other end leads in the pond 11.

As shown in Figure 1, side in still tube outside is provided with housing 23, and an end of lead 22 links to each other with water pump 12, and the other end links to each other with housing 23, housing 23 is provided with push button 24, instrument 25, touch-screen 26, and external source 27 links to each other with housing 23.

As shown in Figure 2, during use, processed glass article stops heating in still, when beginning the still internal cooling lowered the temperature, housing 23 can be opened water pump 12 automatically by default in advance sequence of control, after starting, water pump 12 begins pond 11 internal cooling water 10 are transported in left water inlet pipe 3 and the right water inlet pipe 5 by water inlet manifold road 8, left side water inlet pipe 3, right water inlet pipe 5 is transported to water coolant left side cooling arm 1 respectively again, right side cooling arm 7 and middle part cooling arm 14, water coolant is by right water shoot 19 then, left bank water pipe 20 is transported in the main discharge pipe road 9, water coolant flows in the pond 11 by main discharge pipe road 9, water coolant can play the effect that cools in the glass autoclave through circulating like this.

Claims (2)

1, the refrigerating unit that uses in the glass autoclave, it comprises left side cooling arm (1),. left water inlet pipe (3), right water inlet pipe (5), right side cooling arm (7), water inlet manifold road (8), main discharge pipe road (9), pond (11), water pump (12), middle part cooling arm (14), upright row (17), right water shoot (19), left bank water pipe (20), housing (23), water-in joint (28), stainless steel guard (29), water outlet joint (30) major portion, it is characterized in that: the both sides in the still tube are provided with respectively upright row (17) are installed, upright row uses inside diameter to be welded as the galvanized pipe of 20mm, go up setting upright row (17) cooling arm (14) in middle part is installed, with pipe collar (31) arm (14) being cooled off at the middle part is fixed on the upright row (17), upper end in the still tube is provided with left water inlet pipe (3), right water inlet pipe (5), middle part cooling arm (14) the water-in joint (28) by its upper end respectively with left water inlet pipe (3), right water inlet pipe (5) is connected; Lower end upright row (17) is provided with right water shoot (19) and left bank water pipe (20), and middle part cooling arm (14) is connected with right water shoot (19), left bank water pipe (20) respectively by the water outlet joint (30) of its lower end; Arranged outside upright row (17) is equipped with U-shaped stainless steel mirror board (16), is provided with in upright row's (17) inboard stainless steel net defence (29) is installed; Left upper end in the still tube is provided with 3～6 left side cooling arms (1), be respectively arranged with cooling arm fin (2) in a left side on the left side cooling arm (1), upper right side in the still tube is provided with 3～6 right side cooling arms (7), be respectively arranged with right cooling arm fin (6) on the right side cooling arm (7), the left side cooling arm (1) of left upper end is connected with left water inlet pipe (3) respectively, and the right side cooling arm (7) of upper right side is connected with right water inlet pipe (5) respectively; Side in still tube outside is provided with water inlet manifold road (8), main discharge pipe road (9), be provided with pond (11) in the lower end of still tube outside, the inside of (11) is provided with water pump (12) in the pond, the upper end in water inlet manifold road (8) is connected with left water inlet pipe (3), right water inlet pipe (5) by flange (4), and the lower end of water inlet manifold road (8) is connected with water pump (12); One end in main discharge pipe road (9) is connected with right water shoot (19), left bank water pipe (20) by flange, and the other end leads in the pond (11).

2, the refrigerating unit that uses in the glass autoclave according to claim 1, it is characterized in that: the side in still tube outside is provided with housing (23), one end of lead (22) links to each other with water pump (12), the other end links to each other with housing (23), housing (23) is provided with push button (24), instrument (25), touch-screen (26), and external source (27) links to each other with housing (23).

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