CN205295148U - Glass bead rapid cooling device - Google Patents

Abstract

The utility model relates to a glass bead rapid cooling device, it includes cooling cylinder (1), cooling channel (2), inlet pipe (3), discharging pipe (5) and refrigerant case (6), cooling cylinder (1) is inside along being fixed with cooling channel (2) from last direction under to, the upper end and the lower extreme of inlet pipe (3) of cooling channel (2) are connected, the upper end and the feeding funnel (4) of inlet pipe (3) are connected, discharging pipe (5) communicate with the lower extreme of cooling channel (2), refrigerant case (6) set up in one side of cooling cylinder (1), the lower part lateral wall of refrigerant case (6) and cooling cylinder (1) passes through refrigerant pipe (7) intercommunication, be provided with refrigerant pump (8) on refrigerant pipe (7), still be provided with refrigerant discharge pipe (9) on the upper portion lateral wall of cooling cylinder (1), cooling channel (2) be the spiral pipe. The utility model has the advantages of: compact structure, area are little, cooling efficiency is high, can protect glass bead not harmd effectively.

Description

A kind of glass microballoon fast cooling device

Technical field

This utility model relates to glass microballoon process units technical field, particularly a kind of glass microballoon fast cooling device.

Background technology

A kind of of many uses, a kind of new material that performance is special that glass microballoon is that development in recent years is got up. Glass microballoon is pass through sinter molding mostly, for meeting the processing technique requirement of glass microballoon, needing the glass microballoon to high temperature to carry out cooling process in the course of processing, but existing glass microballoon is in temperature-fall period, cooling system floor space is big, cooling effectiveness is low, cause the production cycle long, and in cooling procedure, cooling device contacts with glass microballoon, it is easily damaged glass microballoon surface, thus affecting product quality.

Utility model content

The purpose of this utility model is in that to overcome the shortcoming of prior art, it is provided that a kind of compact conformation, floor space are little, cooling effectiveness is high, can effectively protect the glass microballoon fast cooling device that glass microballoon is not compromised.

The purpose of this utility model is achieved through the following technical solutions: a kind of glass microballoon fast cooling device, it includes cooling cylinder, cooling duct, feed pipe, discharge nozzle and coolant case, cooling cylinder is internal is fixed with cooling duct along direction from top to bottom, the upper end of cooling duct is connected with the lower end of feed pipe, the upper end of feed pipe is connected with elevating hopper, discharge nozzle connects with the lower end of cooling duct, coolant case is arranged at the side of cooling cylinder, coolant case is connected by refrigerant pipe with the lower sides of cooling cylinder, refrigerant pipe is provided with refrigerant pump, the upper portion side wall of cooling cylinder is additionally provided with coolant discharge pipe, described cooling duct is serpentine pipe.

Described cooling duct inwall is provided with multiple radiation tooth, outer wall is provided with polylith heat radiation fin keel evenly and at intervals.

Described radiation tooth is hemispherical protuberances, and described heat radiation fin keel is thin board type structure.

Described cooling duct, radiation tooth and heat radiation fin keel are formed in one structure.

Described feed pipe, discharge nozzle and refrigerant pipe are respectively arranged with stop valve.

Described discharge nozzle is additionally provided with temperature-detecting device.

This utility model has the advantage that

1, this utility model is by being arranged to serpentine pipe by cooling duct, in the cooling cylinder of equal length, has longer cooling length, so that whole heat sink compact conformation, floor space is little.

2, the glass microballoon of high temperature is long through the length of cooling duct, passes into coolant in cooling cylinder, rapidly cooling duct can be carried out heat exchange, and glass microballoon, behind cooling duct, is lowered the temperature rapidly, and cooling effectiveness is high; In addition, being provided with radiation tooth on the inwall of cooling duct, glass microballoon displacement in cooling duct lengthens further, arranges heat radiation fin keel on the outer wall of cooling duct simultaneously, further speed up cooling duct internal-external heat exchanger efficiency, promote the cooling effectiveness of glass microballoon.

3, the radiation tooth of cooling duct inwall is hemispherical protuberances, can prevent glass microballoon surface from being scratched, thus the quality of product can be improved.

Accompanying drawing explanation

Fig. 1 is sectional structure schematic diagram of the present utility model;

Fig. 2 is the schematic cross-section of cooling duct;

In figure: 1-cooling cylinder, 2-cooling duct, 3-feed pipe, 4-elevating hopper, 5-discharge nozzle, 6-coolant case, 7-refrigerant pipe, 8-refrigerant pump, 9-coolant discharge pipe, 10-temperature-detecting device, 11-stop valve, 12-radiation tooth, 13-dispels the heat fin keel.

Detailed description of the invention

Below in conjunction with accompanying drawing, this utility model is further described, but protection domain of the present utility model is not limited to the following stated.

As shown in Figure 1, a kind of glass microballoon fast cooling device, it includes cooling cylinder 1, cooling duct 2, feed pipe 3, discharge nozzle 5 and coolant case 6, cooling cylinder 1 is internal is fixed with cooling duct 2 along direction from top to bottom, the upper end of cooling duct 2 is connected with the lower end of feed pipe 3, the upper end of feed pipe 3 is connected with elevating hopper 4, discharge nozzle 5 connects with the lower end of cooling duct 2, coolant case 6 is arranged at the side of cooling cylinder 1, coolant case 6 is connected by refrigerant pipe 7 with the lower sides of cooling cylinder 1, refrigerant pipe 7 is provided with refrigerant pump 8, the upper portion side wall of cooling cylinder 1 is additionally provided with coolant discharge pipe 9, described cooling duct 2 is serpentine pipe, serpentine pipe adopts copper or aluminum to make, improve heat exchanger effectiveness.

Further, as in figure 2 it is shown, described cooling duct 2 inwall is provided with multiple radiation tooth 12, outer wall is provided with polylith heat radiation fin keel 13 evenly and at intervals, promote the radiating efficiency of cooling duct 2, can quickly the glass microballoon of high temperature be lowered the temperature, shorten the production cycle.

Further, described radiation tooth 12 is hemispherical protuberances, described heat radiation fin keel 13 is thin board type structure, hemispherical protuberances can prevent glass microballoon from being scratched when through cooling duct 2, thus the quality of production of glass microballoon can be ensured, the heat radiation fin keel 13 of thin board type structure, can accelerate the internal-external heat exchanger efficiency of cooling duct 2, thus the cooling effect of glass microballoon can be improved.

Further, described cooling duct 2, radiation tooth 12 and heat radiation fin keel 13 are formed in one structure so that the structure of cooling duct 2 is more stable, is conducive to extending the service life of heat sink.

Further, described feed pipe 3, discharge nozzle 5 and refrigerant pipe 7 are respectively arranged with stop valve 11.

Further, described discharge nozzle 5 is additionally provided with temperature-detecting device 10, is recorded the glass microballoon temperature at discharge nozzle 5 place by temperature-detecting device 10, according to this temperature, coolant and feeding can be adjusted, to meet manufacturing technique requirent.

Work process of the present utility model is as follows: by the coolant in coolant case 6 by refrigerant pump 8, inject in cooling cylinder 1, when coolant starts to discharge from coolant discharge pipe 9, high temp glass microballon is added in elevating hopper 4, open the stop valve 11 on feed pipe 3, high temp glass microballon enters cooling duct 2, and contact with radiation tooth 12, and move down, until discharging from discharge nozzle 5, the glass microballoon temperature at discharge nozzle 5 place is detected by operator according to temperature-detecting device 10, adjusts the entrance temperature of coolant and the charging rate of high temp glass microballon.

Claims (6)

1. a glass microballoon fast cooling device, it is characterized in that: it includes cooling cylinder (1), cooling duct (2), feed pipe (3), discharge nozzle (5) and coolant case (6), cooling cylinder (1) is internal is fixed with cooling duct (2) along direction from top to bottom, the upper end of cooling duct (2) is connected with the lower end of feed pipe (3), the upper end of feed pipe (3) is connected with elevating hopper (4), discharge nozzle (5) connects with the lower end of cooling duct (2), coolant case (6) is arranged at the side of cooling cylinder (1), coolant case (6) is connected by refrigerant pipe (7) with the lower sides of cooling cylinder (1), refrigerant pipe (7) is provided with refrigerant pump (8), the upper portion side wall of cooling cylinder (1) is additionally provided with coolant discharge pipe (9), described cooling duct (2) is serpentine pipe.

2. a kind of glass microballoon fast cooling device according to claim 1, it is characterised in that: described cooling duct (2) inwall is provided with multiple radiation tooth (12), outer wall is provided with polylith heat radiation fin keel (13) evenly and at intervals.

3. a kind of glass microballoon fast cooling device according to claim 2, it is characterised in that: described radiation tooth (12) is hemispherical protuberances, and described heat radiation fin keel (13) is thin board type structure.

4. a kind of glass microballoon fast cooling device according to Claims 2 or 3, it is characterised in that: described cooling duct (2), radiation tooth (12) and heat radiation fin keel (13) are formed in one structure.

5. a kind of glass microballoon fast cooling device according to claim 1, it is characterised in that: described feed pipe (3), discharge nozzle (5) and refrigerant pipe (7) are respectively arranged with stop valve (11).

6. a kind of glass microballoon fast cooling device according to claim 1, it is characterised in that: described discharge nozzle (5) is additionally provided with temperature-detecting device (10).