CN204499137U - A kind of child-mother combination fish jar - Google Patents

Abstract

The utility model provides a kind of child-mother combination fish jar, comprises female cylinder, multiple sub-cylinder, oxygen-increasing device and water circle device; The bottom of female cylinder is provided with kerve, is provided with refrigeration system in kerve; Refrigeration system comprises the compressor, condenser and the evaporator that are connected in series.A kind of child-mother combination fish jar that the utility model provides, this child-mother combination fish jar can control the temperature in female cylinder and sub-cylinder, avoids water temperature higher, travelling the tailing off of the lower fish of water temperature, makes its metabolic rate decline, thus can not consume too much oxygen, avoid and strengthen oxygenation and the noise that produces, save electricity, reduce costs, simultaneously, the lower water quality of water temperature not easily degenerates, reduce lethality, and fish can not consume too much oxygen, can strengthen breeding density.The fields such as each large catering industry and live fish businessman can be widely used in.

Description

A kind of child-mother combination fish jar

Technical field

The utility model relates to fish jar technical field, especially relates to a kind of child-mother combination fish jar for restaurant, seafood market.

Background technology

Fish jar is a kind of container for supporting fresh and alive fish.At present, the fish jar that the ground such as restaurant, seafood market are commonly used, primarily of glass cylinder body composition, in order to improve the quality of the living environment of fish in use procedure, arranging corresponding aerator and water circulation system, improving the oxygen content in water and water quality in cylinder body.

But along with the raising of outside air temperature, the water temperature in fish jar also can improve thereupon, as summer, when in cylinder, water temperature improves, the activity of fish increases, the metabolic rate of fish can be caused like this to uprise, and the oxygen dissolved in water is few, is in the hypoxia death that this kind of state very easily causes fish for a long time.

At present, traditional solution is: strengthen the power of aerator, reduce the breeding density of fish or add ice block cooling.Wherein, the power strengthening aerator can improve noise, not only has noise pollution, easily causes the restless of fish simultaneously, and easily causes water quality to degenerate, comparatively take electricity for a long time, increases cost; And the breeding density reducing fish can increase breeding spaces, increase area occupied, raise the cost, not manageability; And add the function that ice cube fish jar self does not have insulation, the speed of temperature recovery, need to add ice cube frequently, operation is wasted time and energy.

Utility model content

The purpose of this utility model is to provide a kind of child-mother combination fish jar, with solve exist in prior art there is noise pollution, easily cause the restless of fish, easily cause water quality to degenerate, comparatively take electricity for a long time, increase the technical problem of cost.

A kind of child-mother combination fish jar that the utility model provides, comprises female cylinder, multiple sub-cylinder, oxygen-increasing device and water circle device;

The bottom of described female cylinder is provided with kerve, is provided with refrigeration system in described kerve; Described refrigeration system comprises the compressor, condenser and the evaporator that are connected in series;

Described oxygen-increasing device comprises aerator, and described aerator connects many oxygen supplying tubes, and many described oxygen supplying tubes are placed in described female cylinder and each described sub-cylinder respectively;

Described water circle device comprises Submersible filter pump and pipeline assembly, and described Submersible filter pump is connected with described pipeline assembly, and described Submersible filter pump is located in described female cylinder, and described female cylinder is connected with multiple described sub-cylinder by pipeline assembly.

Further, described female cylinder and multiple described sub-cylinder are structure as a whole;

Multiple described sub-cylinder is located at above described female cylinder and both sides, described sub-cylinder arranged in rows, and the described sub-cylinder of many rows superposes mutually, and described female cylinder and described sub-cylinder are step-like;

Described pipeline assembly comprises many groups of drench with rain pipe and described drainpipes, often arrange described sub-cylinder and be provided with to drench with rain described in one group pipe and described drainpipe, described drench with rain pipe and described drainpipe run through all described sub-cylinder often arranged, the top of described sub-cylinder is located at by the described pipe that drenches with rain, the bottom of described sub-cylinder is located at by described drainpipe, and described drainpipe is provided with water inlet;

The described drainpipe that the adjacent described sub-cylinder of two rows is positioned at the described sub-cylinder of top is connected by aqueduct with the pipe that drenches with rain described in the described sub-cylinder being positioned at below, the pipe that drenches with rain described in the described sub-cylinder going up most row is connected with described Submersible filter pump by feed pipe, descends the described drainpipe of the described sub-cylinder of row to be communicated with described female cylinder most;

The side of described female cylinder is provided with the sub-cylinder in bottom, is communicated with, descends the described drainpipe of the described sub-cylinder of row to be connected with the sub-cylinder in described bottom most between described female cylinder with the sub-cylinder in described bottom by connector.

Further, described female cylinder and multiple described sub-cylinder are Split type structure;

Described pipeline assembly comprises the first water pipe separately, described first water pipe is connected with described Submersible filter pump separately, described first water pipe is connected with multiple described sub-cylinder respectively by water pipe separately, each described sub-cylinder is provided with delivery port, described delivery port is provided with aqueduct, described aqueduct is connected with the second water pipe separately by water pipe, and described second water pipe is connected with described female cylinder separately.

Further, described compressor is connected with temperature controller, and described temperature controller is located on the sidewall of the front end of described kerve.

Further, the front end of described female cylinder and described sub-cylinder is provided with glass window, and the material of described female cylinder and described sub-cylinder is warming plate, and described glass window comprises double glazing, is provided with vacuum layer between two-layer described glass.

Further, the top of described female cylinder and described sub-cylinder is provided with the capping of opposite opened.

Further, described aqueduct comprises inverted-loop tube and longitudinal pipe, and the top of described inverted-loop tube is communicated with described longitudinal pipe, and the one end open of described inverted-loop tube is the entrance of described aqueduct, and other end opening is the outlet of described aqueduct.

Further, described female cylinder is cuboid, and described evaporator is located at the base plate of described female cylinder, backboard and two pieces of side plate places.

Further, the bottom of described female cylinder and described sub-cylinder is provided with roller.

Further, the bottom of described female cylinder and described sub-cylinder is provided with sewage draining exit.

A kind of child-mother combination fish jar that the utility model provides, in the bottom of female cylinder, refrigeration system is set, water in female cylinder can be lowered the temperature by refrigeration system, simultaneously, by water circle device, the water of cooling is delivered in each sub-cylinder again, water in every sub-cylinder is lowered the temperature accordingly, and cleans in cyclic process; Cured by oxygen therapy in female cylinder and sub-cylinder by oxygen-increasing device, thus guarantee the living environment of fish health.

This child-mother combination fish jar can control the temperature in female cylinder and sub-cylinder, avoids water temperature higher, travelling the tailing off of the lower fish of water temperature, its metabolic rate is declined, thus too much oxygen can not be consumed, avoid and strengthen oxygenation and the noise that produces, save electricity, reduce costs, meanwhile, the lower water quality of water temperature not easily degenerates, and reduces lethality, and fish can not consume too much oxygen, breeding density can be strengthened.The fields such as each large catering industry and live fish businessman can be widely used in.

Accompanying drawing explanation

In order to be illustrated more clearly in the utility model embodiment or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparent, accompanying drawing in the following describes is embodiments more of the present utility model, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

The structural representation of the integrative-structure of a kind of child-mother combination fish jar that Fig. 1 provides for the utility model embodiment;

The rearview of the integrative-structure of a kind of child-mother combination fish jar that Fig. 2 provides for the utility model embodiment;

The structural representation of the Split type structure of a kind of child-mother combination fish jar that Fig. 3 provides for the utility model embodiment;

The structural representation of the refrigeration system of a kind of child-mother combination fish jar that Fig. 4 provides for the utility model embodiment.

Reference numeral:

The female cylinder of 1-; 2-cylinder; 3-kerve;

4-compressor; 5-condenser; 6-evaporator;

7-aerator; 8-oxygen supplying tube; 9-Submersible filter pump;

10-drenches with rain pipe; 11-drainpipe; 12-aqueduct;

Sub-cylinder bottom 14-; 16-connector; 17-first water pipe separately;

18-water pipe; 20-second water pipe separately; 21-temperature controller;

22-capping; 24-roller; 25-sewage draining exit.

Embodiment

Be clearly and completely described the technical solution of the utility model below in conjunction with accompanying drawing, obviously, described embodiment is the utility model part embodiment, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the utility model protection.

In description of the present utility model, it should be noted that, orientation or the position relationship of the instruction such as term " " center ", " on ", D score, "left", "right", " vertically ", " level ", " interior ", " outward " they be based on orientation shown in the drawings or position relationship; be only the utility model and simplified characterization for convenience of description; instead of instruction or imply the device of indication or element must have specific orientation, with specific azimuth configuration and operation, therefore can not be interpreted as restriction of the present utility model.In addition, term " first ", " second ", " the 3rd " only for describing object, and can not be interpreted as instruction or hint relative importance.

In description of the present utility model, it should be noted that, unless otherwise clearly defined and limited, term " installation ", " being connected ", " connection " should be interpreted broadly, and such as, can be fixedly connected with, also can be removably connect, or connect integratedly; Can be mechanical connection, also can be electrical connection; Can be directly be connected, also indirectly can be connected by intermediary, can be the connection of two element internals.For the ordinary skill in the art, concrete condition the concrete meaning of above-mentioned term in the utility model can be understood.

Embodiment 1

The structural representation of the integrative-structure of a kind of child-mother combination fish jar that Fig. 1 provides for the utility model embodiment; The rearview of the integrative-structure of a kind of child-mother combination fish jar that Fig. 2 provides for the utility model embodiment; The structural representation of the Split type structure of a kind of child-mother combination fish jar that Fig. 3 provides for the utility model embodiment; The structural representation of the refrigeration system of a kind of child-mother combination fish jar that Fig. 4 provides for the utility model embodiment; As Figure 1-4, a kind of child-mother combination fish jar that the present embodiment provides, comprises female cylinder 1, multiple sub-cylinder 2, oxygen-increasing device and water circle device;

The bottom of female cylinder 1 is provided with kerve 3, is provided with refrigeration system in kerve 3; Refrigeration system comprises the compressor 4, condenser 5 and the evaporator 6 that are connected in series;

Oxygen-increasing device comprises aerator 7, and aerator 7 connects many oxygen supplying tubes 8, and many oxygen supplying tubes 8 are placed in female cylinder 1 and every sub-cylinder 2 respectively;

Water circle device comprises Submersible filter pump 9 and pipeline assembly, and Submersible filter pump 9 is connected with pipeline assembly, and Submersible filter pump 9 is located in female cylinder 1, and female cylinder 1 is connected with multiple sub-cylinder 2 by pipeline assembly.

A kind of child-mother combination fish jar that the utility model provides, in the bottom of female cylinder 1, refrigeration system is set, water in female cylinder 1 can be lowered the temperature by refrigeration system, simultaneously, by water circle device, the water of cooling is delivered in each sub-cylinder 2 again, water in every sub-cylinder 2 is lowered the temperature accordingly, and cleans in cyclic process; Cured by oxygen therapy in female cylinder 1 and sub-cylinder 2 by oxygen-increasing device, thus guarantee the living environment of fish health.

This child-mother combination fish jar can control the temperature in female cylinder 1 and sub-cylinder 2, avoids water temperature higher, travelling the tailing off of the lower fish of water temperature, its metabolic rate is declined, thus too much oxygen can not be consumed, avoid and strengthen oxygenation and the noise that produces, save electricity, reduce costs, meanwhile, the lower water quality of water temperature not easily degenerates, and reduces lethality, and fish can not consume too much oxygen, breeding density can be strengthened.The fields such as each large catering industry and live fish businessman can be widely used in.

Embodiment 2

The structural representation of the integrative-structure of a kind of child-mother combination fish jar that Fig. 1 provides for the utility model embodiment; The rearview of the integrative-structure of a kind of child-mother combination fish jar that Fig. 2 provides for the utility model embodiment; The structural representation of the Split type structure of a kind of child-mother combination fish jar that Fig. 3 provides for the utility model embodiment; The structural representation of the refrigeration system of a kind of child-mother combination fish jar that Fig. 4 provides for the utility model embodiment; As Figure 1-4, a kind of child-mother combination fish jar that the present embodiment provides, comprises female cylinder 1, multiple sub-cylinder 2, oxygen-increasing device and water circle device;

The bottom of female cylinder 1 is provided with kerve 3, is provided with refrigeration system in kerve 3; Refrigeration system comprises the compressor 4, condenser 5 and the evaporator 6 that are connected in series;

Oxygen-increasing device comprises aerator 7, and aerator 7 connects many oxygen supplying tubes 8, and many oxygen supplying tubes 8 are placed in female cylinder 1 and every sub-cylinder 2 respectively;

Water circle device comprises Submersible filter pump 9 and pipeline assembly, and Submersible filter pump 9 is connected with pipeline assembly, and Submersible filter pump 9 is located in female cylinder 1, and female cylinder 1 is connected with multiple sub-cylinder 2 by pipeline assembly.

Can adopt two kinds of arrangement modes, a kind of mode adopting vertical parallel combination, i.e. integral type between female cylinder 1 and multiple sub-cylinder 2, another kind of is that each parts all adopt the mode arranged separately, namely split type.Wherein, as long as the refrigeration system of female cylinder can meet provide water at low temperature to each sub-cylinder, more sub-cylinders can be set within the scope of it.

Female cylinder 1 is structure as a whole with multiple sub-cylinder 2;

Multiple sub-cylinder 2 is located at above female cylinder 1 and both sides, sub-cylinder 2 arranged in rows, and the sub-cylinder of many rows superposes mutually, and female cylinder 1 and sub-cylinder 2 are in step-like;

Pipeline assembly comprises many groups of drench with rain pipe 10 and drainpipes 11, often arrange sub-cylinder 2 and be provided with one group of drench with rain pipe 10 and drainpipe 11, drench with rain pipe 10 and drainpipe 11 run through all sub-cylinder 2 often arranged, and the top of sub-cylinder 2 is located at by the pipe 10 that drenches with rain, the bottom of sub-cylinder 2 is located at by drainpipe 11, and drainpipe 11 is provided with water inlet;

The drainpipe 11 that the adjacent sub-cylinder 2 of two rows is positioned at the sub-cylinder 2 of top is connected by aqueduct 12 with the pipe 10 that drenches with rain of the sub-cylinder 2 being positioned at below, the pipe 10 that drenches with rain going up most the sub-cylinder 2 of row is connected with Submersible filter pump 9 by feed pipe, descends the drainpipe 11 of the sub-cylinder 2 of row to be communicated with female cylinder 1 most;

The side of female cylinder 1 is provided with the sub-cylinder 14 in bottom, is communicated with, descends the sub-cylinder 14 in the drainpipe 11 of the sub-cylinder 2 of row and bottom to be connected most between female cylinder 1 with the sub-cylinder 14 in bottom by connector 16.

Wherein, be arranged on by the air intake duct of aerator 7 in female cylinder 1, in the course of work, aerator 7 absorbs the air that in female cylinder 1, relative temperature is lower, thus further reduces the temperature of output oxygen, further avoids water at low temperature absorb heat and improve temperature.

Adopt this kind of mode, during concrete use, water in sub-cylinder 2 and female cylinder 1 is permanent water at low temperature, in order to not stimulate the generation of fish, can not directly fish be placed in sub-cylinder 2 and female cylinder 1 time initial, first, connector 16 is sealed, start Submersible filter pump 9, water at low temperature in female cylinder 1 is all pumped in the sub-cylinder 14 of sub-cylinder 2 and bottom, afterwards, room temperature water is added in female cylinder 1, fish is placed in female cylinder 1, open connector 16, the water at low temperature in the sub-cylinder 14 in bottom is made slowly to flow in female cylinder 1, make the water cooling slowly in female cylinder 1, can not produce fish and stimulate, after the water temperature in female cylinder 1 is identical with the water temperature in the sub-cylinder of sub-cylinder 2 and bottom 14, again fish is divided and be placed in the sub-cylinder 14 of each sub-cylinder 2 and bottom.

In use procedure, start oxygen-increasing device and water circle device, lasting to oxygen supply and circulating filtration in sub-cylinder 2 and female cylinder 1, ensure that whole fish jar is in normal operating condition.

Female cylinder 1 is Split type structure with multiple sub-cylinder 2;

Pipeline assembly comprises the first water pipe parted hair 17, first water pipe parted hair 17 is connected with Submersible filter pump 9, first water pipe parted hair 17 is connected with multiple sub-cylinder 2 respectively by water pipe 18, every sub-cylinder 2 is provided with delivery port, delivery port is provided with aqueduct 12, aqueduct 12 is connected with the second water pipe parted hair 20, second water pipe parted hair 20 by water pipe 18 and is connected with female cylinder 1.

During concrete use, water in sub-cylinder 2 and female cylinder 1 is all water at low temperature, in order to reduce the stimulation to fish, directly fish can not be put into water at low temperature time initial, during use, first close the second water pipe parted hair 20, water at low temperature in sub-cylinder 2 can not circulate and flow in female cylinder 1, afterwards, start Submersible filter pump 9, water in female cylinder 1 is all delivered in sub-cylinder 2, room temperature water is added in female cylinder 1, whole fish is placed in female cylinder 1, afterwards, open the second water pipe parted hair 20, water at low temperature in sub-cylinder 2 flow in female cylinder 1 gradually, water temperature in female cylinder 1 reduces gradually, after the water temperature in female cylinder 1 and sub-cylinder 2 is identical, fish is divided and puts to each sub-cylinder 2.

Start oxygen-increasing device and water circle device, lasting to oxygen supply and circulating filtration in sub-cylinder 2 and female cylinder 1, ensure that whole fish jar is in normal operating condition.

Compressor 4 is connected with temperature controller 21, and temperature controller 21 is located on the sidewall of the front end of kerve 3.

By temperature controller 21 water temp. auto-control, according to the temperature preset, controlled by temperature controller 21, make coolant controlled more accurate, there will not be cold or overheated phenomenon.

The front end of female cylinder 1 and sub-cylinder 2 is provided with glass window, and the material of female cylinder 1 and sub-cylinder 2 is warming plate, and glass window comprises double glazing, is provided with vacuum layer between layer glass.

Female cylinder 1 and sub-cylinder 2 are set to have certain heat insulation effect, reduce water at low temperature and extraneous heat exchange, both can ensure the accuracy of water at low temperature, meanwhile, the working time of refrigeration system can be reduced, can electricity be saved, cost-saving.

The top of female cylinder 1 and sub-cylinder 2 is provided with the capping 22 of opposite opened.

The effect of insulation is further played in capping 22, and the water at low temperature made directly does not contact with the external world, thus reduces the heat exchange with the external world, adopts opposite opened, and it is convenient to open, and is no matter to get, deposit fish or the equal handled easily of cleaning cylinder body.

Aqueduct 12 comprises inverted-loop tube and longitudinal pipe, and the top of inverted-loop tube is communicated with longitudinal pipe, and the one end open of inverted-loop tube is the entrance of aqueduct 12, and other end opening is the outlet of aqueduct 12.

The object of this kind of form is adopted to be avoid the water in sub-cylinder 2 all to be discharged, wherein, arranging inverted-loop tube makes aqueduct 12 have certain height, after glassware for drinking water only in sub-cylinder 2 has certain degree of depth, just can obtain the hydraulic pressure adapted to, make the water in sub-cylinder 2 enter into inverted-loop tube and longitudinal pipe, be finally discharged.When water level in group cylinder 2 is lower, then stop outside draining.

Female cylinder 1 is in cuboid, and evaporator 6 is located at the base plate of female cylinder 1, backboard and two pieces of side plate places.

In use procedure, the base plate of evaporator and female cylinder 1, backboard and side plate are bonded to each other, and this kind of mode can make the contact area of water in evaporator and female cylinder larger, and heat exchanger effectiveness is higher.

The bottom of female cylinder 1 and sub-cylinder 2 is provided with roller 24.

By arranging the movement that roller 24 is convenient to female cylinder 1 and sub-cylinder 2, wherein, roller 24 can be self-locking roller 24, moves to self-locking behind corresponding position, prevents fish jar from moving.

The bottom of female cylinder 1 and sub-cylinder 2 is provided with sewage draining exit 25.

Sub-cylinder 2 and female cylinder 1 all arranging sewage draining exit 25 convenient when carrying out clean, wherein, sewage draining exit 25 arranging sealing-plug, in cleaning course, opening sealing-plug, after sewage is discharged, then by sewage draining exit 25 shutoff.

A kind of child-mother combination fish jar that the utility model provides, in the bottom of female cylinder 1, refrigeration system is set, water in female cylinder 1 can be lowered the temperature by refrigeration system, simultaneously, by water circle device, the water of cooling is delivered in each sub-cylinder 2 again, water in every sub-cylinder 2 is lowered the temperature accordingly, and cleans in cyclic process; Cured by oxygen therapy in female cylinder 1 and sub-cylinder 2 by oxygen-increasing device, thus guarantee the living environment of fish health.

This child-mother combination fish jar can control the temperature in female cylinder 1 and sub-cylinder 2, avoids water temperature higher, travelling the tailing off of the lower fish of water temperature, its metabolic rate is declined, thus too much oxygen can not be consumed, avoid and strengthen oxygenation and the noise that produces, save electricity, reduce costs, meanwhile, the lower water quality of water temperature not easily degenerates, and reduces lethality, and fish can not consume too much oxygen, breeding density can be strengthened.The fields such as each large catering industry and live fish businessman can be widely used in.

Last it is noted that above each embodiment is only in order to illustrate the technical solution of the utility model, be not intended to limit; Although be described in detail the utility model with reference to foregoing embodiments, those of ordinary skill in the art is to be understood that: it still can be modified to the technical scheme described in foregoing embodiments, or carries out equivalent replacement to wherein some or all of technical characteristic; And these amendments or replacement, do not make the essence of appropriate technical solution depart from the scope of each embodiment technical scheme of the utility model.

Claims (10)

1. a child-mother combination fish jar, is characterized in that, comprises female cylinder, multiple sub-cylinder, oxygen-increasing device and water circle device;

The bottom of described female cylinder is provided with kerve, is provided with refrigeration system in described kerve; Described refrigeration system comprises the compressor, condenser and the evaporator that are connected in series;

Described oxygen-increasing device comprises aerator, and described aerator connects many oxygen supplying tubes, and many described oxygen supplying tubes are placed in described female cylinder and each described sub-cylinder respectively;

Described water circle device comprises Submersible filter pump and pipeline assembly, and described Submersible filter pump is connected with described pipeline assembly, and described Submersible filter pump is located in described female cylinder, and described female cylinder is connected with multiple described sub-cylinder by pipeline assembly.

2. child-mother combination fish jar according to claim 1, is characterized in that, described female cylinder and multiple described sub-cylinder are structure as a whole;

Multiple described sub-cylinder is located at above described female cylinder and both sides, described sub-cylinder arranged in rows, and the described sub-cylinder of many rows superposes mutually, and described female cylinder and described sub-cylinder are step-like;

Described pipeline assembly comprises many groups of drench with rain pipe and drainpipes, often arrange described sub-cylinder and be provided with to drench with rain described in one group pipe and described drainpipe, described drench with rain pipe and described drainpipe run through all described sub-cylinder often arranged, the top of described sub-cylinder is located at by the described pipe that drenches with rain, the bottom of described sub-cylinder is located at by described drainpipe, and described drainpipe is provided with water inlet;

The described drainpipe that the adjacent described sub-cylinder of two rows is positioned at the described sub-cylinder of top is connected by aqueduct with the pipe that drenches with rain described in the described sub-cylinder being positioned at below, the pipe that drenches with rain described in the described sub-cylinder going up most row is connected with described Submersible filter pump by feed pipe, descends the described drainpipe of the described sub-cylinder of row to be communicated with described female cylinder most;

The side of described female cylinder is provided with the sub-cylinder in bottom, is communicated with, descends the described drainpipe of the described sub-cylinder of row to be connected with the sub-cylinder in described bottom most between described female cylinder with the sub-cylinder in described bottom by connector.

3. child-mother combination fish jar according to claim 1, is characterized in that, described female cylinder and multiple described sub-cylinder are Split type structure;

Described pipeline assembly comprises the first water pipe separately, described first water pipe is connected with described Submersible filter pump separately, described first water pipe is connected with multiple described sub-cylinder respectively by water pipe separately, each described sub-cylinder is provided with delivery port, described delivery port is provided with aqueduct, described aqueduct is connected with the second water pipe separately by water pipe, and described second water pipe is connected with described female cylinder separately.

4. child-mother combination fish jar according to claim 1, is characterized in that, described compressor is connected with temperature controller, and described temperature controller is located on the sidewall of the front end of described kerve.

5. child-mother combination fish jar according to claim 1, it is characterized in that, the front end of described female cylinder and described sub-cylinder is provided with glass window, and the material of described female cylinder and described sub-cylinder is warming plate, described glass window comprises double glazing, is provided with vacuum layer between two-layer described glass.

6. child-mother combination fish jar according to claim 5, is characterized in that, the top of described female cylinder and described sub-cylinder is provided with the capping of opposite opened.

7. the child-mother combination fish jar according to Claims 2 or 3, it is characterized in that, described aqueduct comprises inverted-loop tube and longitudinal pipe, the top of a vertical tube of described inverted-loop tube is communicated with described longitudinal pipe, the one end open of described inverted-loop tube is the entrance of described aqueduct, and other end opening is the outlet of described aqueduct.

8. child-mother combination fish jar according to claim 1, is characterized in that, described female cylinder is cuboid, and described evaporator is located at the base plate of described female cylinder, backboard and two pieces of side plate places.

9. child-mother combination fish jar according to claim 3, is characterized in that, the bottom of described female cylinder and described sub-cylinder is provided with roller.

10. child-mother combination fish jar according to claim 1, is characterized in that, the bottom of described female cylinder and described sub-cylinder is provided with sewage draining exit.