CN202671525U - Beer sterilizing machine for filled beer - Google Patents

Abstract

The utility model discloses a beer sterilizing machine for filled beer. The beer sterilizing machine for the filled beer comprises a rack (1), a box body installed on the rack (1) and a transmitting device (2), wherein the transmitting device (2) penetrates through the box body, and the box body sequentially consists of at least two heat-up section box bodies (3-3), at least two heat-preservation section box bodies (3-2) and at least two heat-down section box bodies (3-1). The beer sterilizing machine for the filled beer further comprises a sprinkling device, a temperature control system and a water box device (4)which is disposed at the bottom of the rack (1) and possesses a rapid response to temperature changes. The water box device of the beer sterilizing machine for the filled beer is capable of reducing consumption of steam and running water, and lowering energy consumption. By adopting a water-leakage-plate type spray method, spray is well distributed and spray blind area does not exist, and thus uniformity of sterilizing effect is guaranteed. Power of spray pumps used for various temperature sections is small, and therefore for long-term continuous production of beer manufacturers, saved power consumption is also considerable.

Description

Beer sterilization machine after a kind of can

Technical field

The utility model relates to a kind of sterilization Machine, is specifically related to the beer sterilization machine after a kind of can.

Background technology

The transmission equipment of the beer after existing simple glass bottle and pop can beer sterilization machine comprise frame and rack-mounted casing and be used for the transportation can, transmitting device runs through casing, and casing comprises at least two temperature descending section casings, at least two holding-zone casings and at least two section casings that heat up successively.

After can, for extending the shelf life, all should kill the yeast that in Process of Beer Brewing, produces to reaching through the heat tracing germicidal treatment of temperature some time more than 60 ℃, although and traditional sterilization Machine through updating, but still have following problem:

(1) each warm area need be equipped with a heat exchanger, and heat exchanger quantity is many, and cost is high.

(2) sterilization Machine bottom water tank capacity is large, and temperature control reaction is slow in process of production, has strengthened water consumption or steam consumption.

(3) the sterilization Machine top spray is generally piercing on rectangular tube or nozzle type, and the homogeneity of spray is inadequate, and has the spray dead angle, and there is certain impact in the sterilization effect of beer.

(4) for guaranteeing enough spraying intensities, the power of the feeding spraying pump that configures is all larger, and power consumption is higher.

The utility model content

For the deficiency that prior art exists, the utility model purpose provides the beer sterilization machine after a kind of can that reduces energy consumption.

To achieve these goals, the utility model is to realize by the following technical solutions:

The utility model comprises frame and rack-mounted casing and transmitting device, transmitting device runs through casing, casing comprises at least two heat up section casing, at least two holding-zone casings and at least two temperature descending section casings successively, and the utility model also comprises spray equipment, temperature controlling system and is arranged on the frame bottom to the swift cistern device of temperature variation.Cistern device is fast to the temperature variation reaction, can effectively reduce energy consumption.

Above-mentioned cistern device comprises dashpot and regional groove, and dashpot comprises cold buffer groove, hot dashpot and pre-dashpot successively, and regional groove comprises at least two regional grooves of section that heat up, at least two holding-zone zone grooves and at least two temperature descending section zone grooves successively; Be provided with equilibration tube between cold buffer groove and the pre-dashpot, be provided with passage between pre-dashpot and the hot dashpot.

Above-mentioned spray equipment comprises intensification section leakage board, holding-zone leakage board and the temperature descending section leakage board that is separately positioned on heat up section casing, holding-zone casing and temperature descending section casing top and heat up section feeding spraying pump, holding-zone feeding spraying pump and temperature descending section feeding spraying pump, and the section that heats up feeding spraying pump, holding-zone feeding spraying pump and temperature descending section feeding spraying pump are connected with temperature descending section zone groove, holding-zone zone groove and the regional groove of section that heats up respectively; The section that heats up feeding spraying pump, holding-zone feeding spraying pump and temperature descending section feeding spraying pump water outlet lay respectively at the section leakage board that heats up, holding-zone leakage board and temperature descending section leakage board top.Spray equipment comprises a plurality of lower-powered feeding spraying pumps, is fit to long-term continuously production; Adopt leakage board so that spray is very even.

All be connected with Y-tube, the first channel-section steel and the second channel-section steel in turn at above-mentioned temperature descending section feeding spraying pump, holding-zone feeding spraying pump and the section feeding spraying pump water outlet that heats up, the second channel-section steel of temperature descending section feeding spraying pump, holding-zone feeding spraying pump and the section feeding spraying pump water outlet that heats up lays respectively at temperature descending section leakage board, holding-zone leakage board and heats up section leakage board top.

The said temperature Controlling System comprises the water supply pump that is connected with the cold buffer groove, the hot water pump that is connected with hot dashpot, the heat exchanger that is connected with the hot water pump water outlet, temperature regulator, at least four the first valves that are connected with the temperature regulator output terminal reach at least four the second valves and at least two the first temperature sensors that are connected with the temperature regulator input terminus, at least two the second temperature sensors, at least two three-temperature sensors, the 4th temperature sensor, the 5th temperature sensor and the 6th temperature sensor; The heat exchanger water outlet is connected with holding-zone feeding spraying pump water-in and the section feeding spraying pump water-in that heats up, and the water supply pump water outlet is connected with temperature descending section feeding spraying pump water-in and holding-zone feeding spraying pump water-in; The first valve is arranged on heat exchanger water outlet and holding-zone feeding spraying pump water-in and heats up between the section feeding spraying pump water-in, and the second valve is arranged between water supply pump water outlet and holding-zone feeding spraying pump water-in and the temperature descending section feeding spraying pump water-in; Three-temperature sensor, the second temperature sensor and the first temperature sensor lay respectively at heat up section feeding spraying pump water outlet, holding-zone feeding spraying pump water outlet and temperature descending section feeding spraying pump water outlet, the 4th temperature sensor is positioned at the water supply pump water outlet, the 5th temperature sensor is positioned at the heat exchanger water outlet, and the 6th temperature sensor is positioned at hot dashpot, and (effect of the 6th temperature sensor is: the temperature that shows hot dashpot for display unit).

Be provided with return line between above-mentioned heat exchanger and the hot dashpot.Hot water in case whole spray equipment toos many or too much for use in the heat exchanger, redundance returns in the hot dashpot.

The beneficial effects of the utility model are as follows:

(1) the regional groove volume because of each temperature section is less in the cistern device, therefore it is fast to the temperature variation reaction, when each warm area temperature has fluctuation, also very fast by the speed that adds hot water or temperature of cold water rises or cooling, thereby reduced the consumption of steam and tap water, reduced the consumption of the energy; (2) adopt the board-like spray mode of leaking, spray very evenly, do not have the spray blind area, thus the consistence of assurance sterilization effect; (3) employed feeding spraying pump power is less, and for long-term quantity-produced beer producer, the power consumption of saving also is very considerable.

Description of drawings

Fig. 1 is one-piece construction schematic diagram of the present utility model;

Fig. 2 is that the utility model is with the structural representation of the second valve and the 4th temperature sensor;

Fig. 3 is cistern device structural representation of the present utility model;

Fig. 4 is the cistern device structural representation with water supply pump, hot water pump, heat exchanger and each temperature section feeding spraying pump;

Fig. 5 is spray equipment structural representation of the present utility model.

Each label among the figure: frame 1, transmitting device 2, the section that heats up casing 3-3, holding-zone casing 3-2, temperature descending section casing 3-1, cistern device 4, cold buffer groove 4-1, hot dashpot 4-2, pre-dashpot 4-3, the regional groove 5-1 of the section that heats up, holding-zone zone groove 5-2, temperature descending section zone groove 5-3, equilibration tube 6-1, passage 6-2, the section that heats up leakage board 7-3, holding-zone leakage board 7-2, temperature descending section leakage board 7-1, the section that heats up feeding spraying pump 8-3, holding-zone feeding spraying pump 8-2, temperature descending section feeding spraying pump 8-1, Y-tube 9-1, the first channel-section steel 9-2, the second channel-section steel 9-3, water supply pump 10, hot water pump 11, heat exchanger 12, the thin valve 12-1 of film, the first valve 13-1, the second valve 13-2, the first temperature sensor 14-1, the second temperature sensor 14-2, three-temperature sensor 14-3, the 4th temperature sensor 14-4, the 5th temperature sensor 14-5, the 6th temperature sensor 14-6, return line 15.

Embodiment

For technique means, creation characteristic that the utility model is realized, reach purpose and effect is easy to understand, below in conjunction with embodiment, further set forth the utility model.

Referring to Fig. 1 and Fig. 2, the utility model comprises frame 1, be installed in casing and transmitting device 2 on the frame 1, be arranged on cistern device 4, spray equipment and the temperature controlling system of frame 1 bottom.Wherein, transmitting device 2 runs through casing, and casing from left to right comprises three heat up section casing 3-3, four holding-zone casing 3-2 and three temperature descending section casing 3-1 successively.

Referring to Fig. 3, cistern device 4 comprises dashpot and is positioned at the regional groove of dashpot below, dashpot comprises cold buffer groove 4-1, hot dashpot 4-2 and pre-dashpot 4-3 successively from bottle-inlet end, and regional groove comprises three regional groove 5-1 of section that heat up, four holding-zone zone groove 5-2 and three temperature descending section zone groove 5-3 successively from bottle-inlet end.Between cold buffer groove 4-1 and pre-dashpot 4-3 temperature lower position, be provided with equilibration tube 6-1, between pre-dashpot 4-3 temperature higher part position and hot dashpot 4-2, be provided with passage 6-2.Because cold buffer groove 4-1 and hot dashpot 4-2 have water pump constantly to draw water, liquid level in these two tanks will descend, their water of supply is from the water of regional groove (three the regional groove 5-1 of section that heat up, four holding-zone zone groove 5-2 and three temperature descending section zone groove 5-3) overflow, so liquid level all is contour all the time.

Referring to Fig. 5, spray equipment comprises intensification section leakage board 7-3, holding-zone leakage board 7-2 and the temperature descending section leakage board 7-1 that is separately positioned on heat up section casing 3-3, holding-zone casing 3-2 and temperature descending section casing 3-1 top and heat up section feeding spraying pump 8-3, holding-zone feeding spraying pump 8-2 and temperature descending section feeding spraying pump 8-1.The section that heats up feeding spraying pump 8-3, holding-zone feeding spraying pump 8-2 and temperature descending section feeding spraying pump 8-1 are connected with temperature descending section zone groove 5-3, holding-zone zone groove 5-2 and the regional groove 5-1 of section that heats up respectively.All be connected with Y-tube 9-1, the first channel-section steel 9-2 and the second channel-section steel 9-3 in turn at temperature descending section feeding spraying pump 8-1, holding-zone feeding spraying pump 8-2 and the section feeding spraying pump 8-3 water outlet that heats up, the second channel-section steel 9-3 of temperature descending section feeding spraying pump 8-1, holding-zone feeding spraying pump 8-2 and the section feeding spraying pump 8-3 water outlet that heats up lays respectively at temperature descending section leakage board 7-1, holding-zone leakage board 7-2 and heats up section leakage board 7-3 top.

Referring to Fig. 1, Fig. 2 and Fig. 4, temperature controlling system comprises the water supply pump 10 that is connected with cold buffer groove 4-1, the hot water pump 11 that is connected with hot dashpot 4-2, the heat exchanger 12 that is connected with hot water pump 11 water outlets, temperature regulator (not shown in FIG.), six the first valve 13-1 that are connected with the temperature regulator output terminal and seven the second valve 13-2 and three the first temperature sensor 14-1 that are connected with the temperature regulator input terminus, four the second temperature sensor 14-2, three three-temperature sensor 14-3, the 4th a temperature sensor 14-4, the 5th a temperature sensor 14-5 and the 6th a temperature sensor 14-6.Between heat exchanger 12 and hot dashpot 4-2, be provided with return line 15.

Heat exchanger 12 water outlets are connected with holding-zone feeding spraying pump 8-2 water-in and the section feeding spraying pump 8-3 water-in that heats up, and water supply pump 10 water outlets are connected with temperature descending section feeding spraying pump 8-1 water-in and holding-zone feeding spraying pump 8-2 water-in.The first valve 13-1 is arranged on heat exchanger 12 water outlets and holding-zone feeding spraying pump 8-2 water-in and heats up between the section feeding spraying pump 8-3 water-in, and the second valve 13-2 is arranged between water supply pump 10 water outlets and holding-zone feeding spraying pump 8-2 water-in and the temperature descending section feeding spraying pump 8-1 water-in.

The first temperature sensor 14-1, the second temperature sensor 14-2 and three-temperature sensor 14-3 lay respectively at temperature descending section feeding spraying pump 8-1 water outlet, holding-zone feeding spraying pump 8-2 water outlet and heat up section feeding spraying pump 8-3 water outlet, the 4th temperature sensor 14-4 is positioned at water supply pump 10 water outlets, the 5th temperature sensor 14-5 is positioned at heat exchanger 12 water outlets, and the 6th temperature sensor 14-6 is positioned at hot dashpot 4-2, and (effect of the 6th temperature sensor 14-6 is: the temperature that shows hot dashpot 4-2 for corresponding display unit).

Working process of the present utility model and principle are as follows:

Beer Bottle after the can at the uniform velocity is transported to each different temperature range of sterilization Machine by transmitting device 2.The temperature of beer is about 4 ℃ during because of can, therefore Beer Bottle is when entering sterilization Machine, should pass through several (the present embodiment is three) intensification sections, to prevent the bad bottle of vial, thereby make a bottle interior beer temperature reach sterilization temperature more than 60 ℃, then pass through several (the present embodiment are four) insulation section, reach (PU value) behind the required sterilization effect, pass through again several (the present embodiment are three) cooling section, make a bottle interior beer temperature be down to≤35 ℃, thereby finish a sterilization process.

The utility model is in order to reach energy-conservation purpose, first: change 12 heating of traditional heat exchanger of each warm area into use a board-like heat exchanger 12 in the Unified Set mode.Use a hot water pump 11 will extract from hot dashpot 4-2 about 65 ℃ hot water arrival heat exchanger 12, by (adding what of quantity of steam by the thin valve 12-1 of film control after the steam heating, the openings of sizes of the thin valve 12-1 of film is controlled by the 5th temperature sensor 14-5, be prior art, repeat no more), reach about 90 ℃, then this hot water is added holding-zone feeding spraying pump 8-2 water-in and heat up section feeding spraying pump 8-3 water-in by the first valve 13-1, thereby reach the effect of heating, do not heat up if do not need, then the first valve 13-1 of its correspondence does not open that { temperature regulator receives the data of the second temperature sensor 14-2 (the first temperature sensor 14-1) and the 5th temperature sensor 14-5, thereby the first valve 13-1 aperture that control is corresponding }, this type of heating is swift in response, injection rate is few, and steam consumption reduces.

Second: traditional monoblock type large water tank structure is changed to two parallel parts.Water in the cold buffer groove 4-1 is extracted into temperature descending section feeding spraying pump 8-1 water-in (from left to right second, third temperature descending section feeding spraying pump 8-1 water-in) and holding-zone feeding spraying pump 8-2 water-in by water supply pump 10, receive the data of three-temperature sensor 14-1 (the second temperature temperature sensor 14-2) and the 4th temperature sensor 14-4 by the second valve 13-2{ temperature regulator, thereby the second valve 13-2 aperture that control is corresponding } control, directly add water in the cold buffer groove 4-1 toward pump intake.

The water of hot dashpot 4-2 is extracted into heat exchanger 12 interior heating by hot water pump 11, water after the heating flows into holding-zone feeding spraying pump 8-2 water-in and heats up section feeding spraying pump 8-3 water-in, by the first valve 13-1 control, directly add hot water (about 90 ℃) after the heating toward pump intake.This part hot water if whole sprinkling system is tood many or too much for use, redundance return in the hot dashpot 4-2.

Each regional groove is connected with a feeding spraying pump, and the water of regional groove is all carried to spray pump, and the water liquid level in feeding spraying pump is opened the time domain groove must not be lower than 650mm.If be lower than this lower limit, be installed in the water that the float(ing)valve in the regional groove will be extracted spray pump out, directly introduce in the regional groove.Open in proportion simultaneously the valve of spray water pumping hole, add the identical water of temperature with the required spray water of replenishment cycles.Because self-circulation institute water requirement is less, so do not have float(ing)valve in the soak zones groove.

The the 3rd: traditional high powered water pump equipment top tubular type spray that draws water is changed to the smaller power pumping for water pump and sprays to the leakage board of equipment top.The feeding spraying pump of each temperature section with the corresponding zone trough inner water in Y-tube 9-1 squeezes into the first channel-section steel 9-2, flow among the second channel-section steel 9-3 by 15cm*15cm square hole in the first channel-section steel 9-2, again by the second channel-section steel 9-3 overflow to the leakage board of each temperature section, be ejected on the Beer Bottle by the hole on the leakage board at last.

Above demonstration and described ultimate principle of the present utility model and principal character and advantage of the present utility model.The technician of the industry should understand; the utility model is not restricted to the described embodiments; that describes in above-described embodiment and the specification sheets just illustrates principle of the present utility model; under the prerequisite that does not break away from the utility model spirit and scope; the utility model also has various changes and modifications, and these changes and improvements all fall in claimed the utility model scope.The claimed scope of the utility model is defined by appending claims and equivalent thereof.

Claims (6)

1. the beer sterilization machine after the can, comprise frame (1) and be installed in casing and transmitting device (2) on the frame (1), described transmitting device (2) runs through casing, described casing comprises at least two heat up section casing (3-3), at least two holding-zone casings (3-2) and at least two temperature descending section casings (3-1) successively

It is characterized in that, also comprise spray equipment, temperature controlling system and be arranged on frame (1) bottom to the swift cistern device of temperature variation (4).

2. the beer sterilization machine after the can according to claim 1, it is characterized in that, described cistern device (4) comprises dashpot and regional groove, described dashpot comprises cold buffer groove (4-1), hot dashpot (4-2) and pre-dashpot (4-3) successively, and described regional groove comprises at least two section regional grooves (5-1) that heat up, at least two holding-zone zone grooves (5-2) and at least two temperature descending section zone grooves (5-3) successively;

Be provided with equilibration tube (6-1) between described cold buffer groove (4-1) and the pre-dashpot (4-3), be provided with passage (6-2) between described pre-dashpot (4-3) and the hot dashpot (4-2).

3. the beer sterilization machine after the can according to claim 2, it is characterized in that, described spray equipment comprises and is separately positioned on the section casing (3-3) that heats up, the intensification section leakage board (7-3) at holding-zone casing (3-2) and temperature descending section casing (3-1) top, holding-zone leakage board (7-2) and temperature descending section leakage board (7-1) and the section feeding spraying pump (8-3) that heats up, holding-zone feeding spraying pump (8-2) and temperature descending section feeding spraying pump (8-1), described intensification section feeding spraying pump (8-3), holding-zone feeding spraying pump (8-2) and temperature descending section feeding spraying pump (8-1) respectively with temperature descending section zone groove (5-3), holding-zone zone groove (5-2) and the regional groove of section (5-1) that heats up are connected;

Described intensification section feeding spraying pump (8-3), holding-zone feeding spraying pump (8-2) and temperature descending section feeding spraying pump (8-1) water outlet lay respectively at the section leakage board (7-3) that heats up, holding-zone leakage board (7-2) and temperature descending section leakage board (7-1) top.

4. the beer sterilization machine after the can according to claim 3, it is characterized in that, at described temperature descending section feeding spraying pump (8-1), holding-zone feeding spraying pump (8-2) and section feeding spraying pump (8-3) water outlet that heats up all are connected with Y-tube (9-1) in turn, the first channel-section steel (9-2) and the second channel-section steel (9-3), described temperature descending section feeding spraying pump (8-1), second channel-section steel (9-3) of holding-zone feeding spraying pump (8-2) and section feeding spraying pump (8-3) water outlet that heats up lays respectively at temperature descending section leakage board (7-1), holding-zone leakage board (7-2) and section leakage board (7-3) top of heating up.

5. according to claim 3 or the beer sterilization machine after the 4 described cans, it is characterized in that, described temperature controlling system comprises the water supply pump (10) that is connected with cold buffer groove (4-1), the hot water pump (11) that is connected with hot dashpot (4-2), the heat exchanger (12) that is connected with hot water pump (11) water outlet, temperature regulator, at least four the first valves (13-1) that are connected with the temperature regulator output terminal and at least four the second valves (13-2) and at least two the first temperature sensors (14-1) that are connected with the temperature regulator input terminus, at least two the second temperature sensors (14-2), at least two three-temperature sensors (14-3), the 4th temperature sensor (14-4), the 5th temperature sensor (14-5) and the 6th temperature sensor (14-6);

Described heat exchanger (12) water outlet is connected with holding-zone feeding spraying pump (8-2) water-in and section feeding spraying pump (8-3) water-in that heats up, and described water supply pump (10) water outlet is connected with temperature descending section feeding spraying pump (8-1) water-in and holding-zone feeding spraying pump (8-2) water-in;

Described the first valve (13-1) is arranged on heat exchanger (12) water outlet and holding-zone feeding spraying pump (8-2) water-in and heats up between section feeding spraying pump (8-3) water-in, and described the second valve (13-2) is arranged between water supply pump (10) water outlet and holding-zone feeding spraying pump (8-2) water-in and temperature descending section feeding spraying pump (8-1) water-in;

Described three-temperature sensor (14-3), the second temperature sensor (14-2) and the first temperature sensor (14-1) lay respectively at section feeding spraying pump (8-3) water outlet that heats up, holding-zone feeding spraying pump (8-2) water outlet and temperature descending section feeding spraying pump (8-1) water outlet, described the 4th temperature sensor (14-4) is positioned at water supply pump (10) water outlet, described the 5th temperature sensor (14-5) is positioned at heat exchanger (12) water outlet, and described the 6th temperature sensor (14-6) is positioned at hot dashpot (4-2).

6. the beer sterilization machine after the can according to claim 5 is characterized in that, is provided with return line (15) between described heat exchanger (12) and the hot dashpot (4-2).

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