CN205784091U - A kind of highly efficient cooling device of mould - Google Patents

Abstract

nullThe utility model discloses the highly efficient cooling device of a kind of mould，Including conveyor-belt apparatus，And on conveyor-belt apparatus, it is placed with mould，Described conveyor-belt apparatus sequentially passes through aircooling cabinet from left to right、One-level cooling chamber、Two grades of cooling chambers、Three grades of cooling chambers and hothouse，And one-level cooling chamber、The lower end of two grades of cooling chambers and three grades of cooling chambers connects water tank each via liquid back pipe，The lower end of described aircooling cabinet is provided with the second air exhauster，And the lower end of hothouse is provided with the first air exhauster，This device by use air cooling and liquid is cold combine by the way of，Mould can be effectively made gradually to be cooled，The water vapour in cooling procedure can be effectively eliminated simultaneously，Water vapour is avoided to affect workman's operation and affect the service life of other equipment，This device is by the way of gradient cooling simultaneously，Can the most progressively cool down mould，Avoid mould because of the cause influence such as quenching service life，Therefore there is the highest practical value.

Description

A kind of highly efficient cooling device of mould

Technical field

This utility model relates to mould cooling technology field, the highly efficient cooling device of a kind of mould.

Background technology

A mould cooling always difficult problem, if essentially consist in existing part mould use air-cooled be extremely difficult to good Cooling effect, therefore efficiency is low, and directly uses water-cooled can produce substantial amounts of steam so that operator is difficult to operate, And quenching during water-cooled can cause mould to crack, having a strong impact on the mold use life-span, the most existing cooling system is all It is difficult to reach intended cooling effect, if it is possible to the equipment for cooling die inventing a kind of highly effective just can solve the problem that this type of is asked Topic, we provides the highly efficient cooling device of a kind of mould for this.

Summary of the invention

The purpose of this utility model is to provide the highly efficient cooling device of a kind of mould, to solve to carry in above-mentioned background technology The problem gone out.

For achieving the above object, the following technical scheme of this utility model offer:

The highly efficient cooling device of a kind of mould, including conveyor-belt apparatus, and is placed with mould, described biography on conveyor-belt apparatus Work-feeding means sequentially passes through aircooling cabinet, one-level cooling chamber, two grades of cooling chambers, three grades of cooling chambers and hothouse, and one from left to right The lower end of level cooling chamber, two grades of cooling chambers and three grades of cooling chambers connects water tank, the lower end of described aircooling cabinet each via liquid back pipe Second air exhauster is installed, and the lower end of hothouse is provided with the first air exhauster, described first air exhauster and the second air exhauster Lower end connects gas-liquid separation device each via muffler, and the upper end of described aircooling cabinet is provided with the second blower fan, and the second blower fan Upper end connect the second heat-exchanger rig, the upper end of described hothouse is provided with the first blower fan, and the upper end of the first blower fan connects and has First heat-exchanger rig, described gas-liquid separation device connects the second heat-exchanger rig and the first heat-exchanger rig respectively by circulating gas pipe, And the upper end of one-level cooling chamber, two grades of cooling chambers and three grades of cooling chambers is mounted on shower nozzle, the shower nozzle in described one-level cooling chamber Upper end connects the upper end of the shower nozzle in one-level chiller, and two grades of cooling chambers and connects two grades of chillers, described three grades of coolings The upper end of indoor shower nozzle connects three grades of chillers, and the right-hand member of one-level chiller is filled with two grades of coolings successively by water pipe Putting and three grades of chiller series connection, the water inlet of described one-level chiller connects gas-liquid separation device respectively by circulating water pipe With the outlet pipe of water tank, described first blower fan, conveyor-belt apparatus, the first air exhauster, gas-liquid separation device, the second air exhauster, Two blower fans, the second heat-exchanger rig, one-level chiller, two grades of chillers, three grades of chillers and the first heat-exchanger rig are the most electric Property connect same controller.

Preferably, it is mounted on humidity detector in described aircooling cabinet and hothouse.

Preferably, it is mounted on temperature-detecting device in described one-level cooling chamber, two grades of cooling chambers and three grades of cooling chambers.

Preferably, described conveyor-belt apparatus is provided with water seepage hole.

Preferably, it is equipped with shell and tube heat exchange in described one-level chiller, two grades of chillers and three grades of chillers Device.

Compared with prior art, the beneficial effects of the utility model are: this utility model is by using air cooling and the cold phase of liquid In conjunction with mode, it is possible to effectively make mould gradually be cooled, simultaneously can effectively eliminate the water vapour in cooling procedure, it is to avoid Water vapour affects workman's operation and affects the service life of other equipment, and this device is by the way of gradient cooling simultaneously, energy Enough effectively progressively cool down mould, it is to avoid mould, because of the cause influence such as quenching service life, therefore has the highest practical value.

Accompanying drawing explanation

Fig. 1 is this utility model structural representation.

In figure: 1 first blower fan, 2 humidity detectors, 3 moulds, 4 conveyor-belt apparatus, 5 hothouses, 6 first air exhausters, 7 Three grades of cooling chambers, 8 liquid back pipes, 9 mufflers, 10 water tanks, 11 gas-liquid separation devices, 12 circulating water pipes, 13 second air exhausters, 14 ooze Water hole, 15 circulating gas pipe, 16 aircooling cabinets, 17 second blower fans, 18 second heat-exchanger rigs, 19 one-level chillers, 20 one-level coolings Room, 21 2 grades of chillers, 22 2 grades of cooling chambers, 23 temperature-detecting devices, 24 3 grades of chillers, 25 shower nozzles, 26 first change Thermal.

Detailed description of the invention

Below in conjunction with the accompanying drawing in this utility model embodiment, the technical scheme in this utility model embodiment is carried out Clearly and completely describe, it is clear that described embodiment is only a part of embodiment of this utility model rather than whole Embodiment.Based on the embodiment in this utility model, those of ordinary skill in the art are not under making creative work premise The every other embodiment obtained, broadly falls into the scope of this utility model protection.

Refer to Fig. 1, a kind of technical scheme of this utility model offer:

The highly efficient cooling device of a kind of mould, including conveyor-belt apparatus 4, and is placed with mould 3 on conveyor-belt apparatus 4, pass Work-feeding means 4 sequentially passes through aircooling cabinet 16, one-level cooling chamber 22, three grades of cooling chambers 7 of 20, two grades of cooling chambers from left to right and is dried Room 5, and the lower end of 20, two grades of cooling chambers 22 of one-level cooling chamber and three grades of cooling chambers 7 connects water tank 10 each via liquid back pipe 8, The lower end of aircooling cabinet 16 is provided with the second air exhauster 13, and the lower end of hothouse 5 is provided with the first air exhauster 6, the first air exhauster 6 Connecting gas-liquid separation device 11 with the lower end of the second air exhauster 13 each via muffler 9, the upper end of aircooling cabinet 16 is provided with Two blower fans 17, and the upper end of the second blower fan 17 connects the second heat-exchanger rig 18.

The upper end of this device hothouse 5 is provided with the first blower fan 1, and the upper end connection of the first blower fan 1 has the first heat exchange dress Putting 26, gas-liquid separation device 11 connects the second heat-exchanger rig 18 and the first heat-exchanger rig 26, and one respectively by circulating gas pipe 15 The upper end of level 20, two grades of cooling chambers 22 of cooling chamber and three grades of cooling chambers 7 is mounted on shower nozzle 25, the shower nozzle in one-level cooling chamber 20 Two grades of chillers 21 of upper end connection of the shower nozzle 25 in 25 upper ends connection one-level chillers 19, and two grades of cooling chambers 22, three The upper end of the shower nozzle 25 in level cooling chamber 7 connects three grades of chillers 24, and the right-hand member of one-level chiller 19 is depended on by water pipe Secondary connect with two grades of chillers 21 and three grades of chillers 24.

The water inlet of this device one-level chiller 19 connects gas-liquid separation device 11 and water respectively by circulating water pipe 12 The outlet pipe of case 10, the first blower fan 1, conveyor-belt apparatus the 4, first air exhauster 6, gas-liquid separation device the 11, second air exhauster 13, Two blower fan the 17, second heat-exchanger rigs 18, one-level chiller 21, three grades of chillers 24 of 19, two grades of chillers and first change Thermal 26 is all electrically connected with same controller.

Humidity detector 2, one-level cooling chamber 20, two grades cooling it is mounted in this device aircooling cabinet 16 and hothouse 5 Being mounted on temperature-detecting device 23 in room 22 and three grades of cooling chambers 7, conveyor-belt apparatus 4 is provided with water seepage hole 14, one-level is cold It is equipped with tubular heat exchanger in 19, two grades of chillers 21 of radiator cooler and three grades of chillers 24.

This device by use air cooling and liquid is cold combine by the way of, it is possible to effectively make mould gradually be cooled, energy simultaneously Enough effectively eliminate the water vapour in cooling procedure, it is to avoid water vapour affects workman's operation and affects the use longevity of other equipment Life, this device is by the way of gradient cooling simultaneously, it is possible to effectively progressively cool down mould, it is to avoid mould is because of reason shadows such as quenchings Ringing service life, this device can also carry out water saving and energy-conservation by recycling water resource, simultaneously can also be to cooling after Die surface is dried process, therefore has the highest practical value.

Embodiment the most of the present utility model, for the ordinary skill in the art, It is appreciated that in the case of without departing from principle of the present utility model and spirit and these embodiments can be carried out multiple change, repair Changing, replace and modification, scope of the present utility model is defined by the appended claims and the equivalents thereof.

Claims (5)

1. a highly efficient cooling device for mould, including conveyor-belt apparatus (4), and is placed with mould on conveyor-belt apparatus (4) (3), it is characterised in that: described conveyor-belt apparatus (4) sequentially pass through from left to right aircooling cabinet (16), one-level cooling chamber (20), two Level cooling chamber (22), three grades of cooling chambers (7) and hothouse (5), and one-level cooling chamber (20), two grades of cooling chambers (22) and three grades are cold But the lower end of room (7) connects water tank (10) each via liquid back pipe (8), and the lower end of described aircooling cabinet (16) is provided with the second convulsion Machine (13), and the lower end of hothouse (5) is provided with the first air exhauster (6), described first air exhauster (6) and the second air exhauster (13) Lower end each via muffler (9) connect gas-liquid separation device (11), the upper end of described aircooling cabinet (16) is provided with the second wind Machine (17), and the upper end of the second blower fan (17) connects the second heat-exchanger rig (18), the upper end of described hothouse (5) is provided with first Blower fan (1), and the upper end of the first blower fan (1) connects and has the first heat-exchanger rig (26), described gas-liquid separation device (11) is by following Ring trachea (15) connects the second heat-exchanger rig (18) and the first heat-exchanger rig (26) respectively, and one-level cooling chamber (20), two grades cold But the upper end of room (22) and three grades of cooling chambers (7) is mounted on shower nozzle (25), the shower nozzle (25) in described one-level cooling chamber (20) Upper end connects one-level chiller (19), and the upper end of the shower nozzle (25) in two grades of cooling chambers (22) connects two grades of chillers (21), the upper end of the shower nozzle (25) in described three grades of cooling chambers (7) connects three grades of chillers (24), and one-level chiller (19) right-hand member is connected with two grades of chillers (21) and three grades of chillers (24) successively by water pipe, described one-level cooling dress The water inlet putting (19) connects gas-liquid separation device (11) and the outlet pipe of water tank (10) respectively by circulating water pipe (12), described First blower fan (1), conveyor-belt apparatus (4), the first air exhauster (6), gas-liquid separation device (11), the second air exhauster (13), second Blower fan (17), the second heat-exchanger rig (18), one-level chiller (19), two grades of chillers (21), three grades of chillers (24) Same controller all it is electrically connected with the first heat-exchanger rig (26).

The highly efficient cooling device of a kind of mould the most according to claim 1, it is characterised in that: described aircooling cabinet (16) and dry Humidity detector (2) it is mounted in dry room (5).

The highly efficient cooling device of a kind of mould the most according to claim 1, it is characterised in that: described one-level cooling chamber (20), it is mounted on temperature-detecting device (23) in two grades of cooling chambers (22) and three grades of cooling chambers (7).

The highly efficient cooling device of a kind of mould the most according to claim 1, it is characterised in that: described conveyor-belt apparatus (4) On be provided with water seepage hole (14).

The highly efficient cooling device of a kind of mould the most according to claim 1, it is characterised in that: described one-level chiller (19), it is equipped with tubular heat exchanger in two grades of chillers (21) and three grades of chillers (24).