CN103250014A

CN103250014A - Container refrigeration device

Info

Publication number: CN103250014A
Application number: CN2011800565162A
Authority: CN
Inventors: 高桥洋介
Original assignee: Yanmar Co Ltd
Current assignee: Yanmar Co Ltd
Priority date: 2010-11-26
Filing date: 2011-11-21
Publication date: 2013-08-14
Also published as: JP2012112620A; RU2013128977A; WO2012070532A1; BR112013012650A2

Abstract

The present invention addresses the problem of providing a refrigeration device which enables an engine-driven refrigeration machine for a container to be easily installed in the container and which can be manufactured at improved manufacturing efficiency by eliminating complex work in the manufacturing process. A mounting hole (33) in which an engine-driven refrigeration machine for a container is mounted is provided at the center of the container (2) on the front gable side thereof. A flange section (42a) for affixing the refrigeration machine body (22) to the periphery of the mounting hole (33) is formed around the front face of the refrigeration machine body (22). The refrigeration machine body (22) is disposed at the center of the container (2) on the front gable side thereof. Paths through which air is made to flow are provided between the side surfaces of the refrigeration machine body (22) and the side surfaces of the container (2). The evaporator (21) can be disposed above or below the refrigeration machine body (22). A connection pipe (23) is configured from a bendable pipe.

Description

The container refrigerating plant

Technical field

The present invention relates to the technology of container refrigerating plant, the refrigerating plant of described container.The container and the container engine-driven refrigerator that is arranged at the one side of this container of cuboid be equipped with.

Background technology

In the past, the container that is equipped with the container of cuboid and is arranged at the one side of this container is known (for example, with reference to patent documentation 1) with the refrigerating plant of engine-driven refrigerator.Container carries on container with engine-driven refrigerator detachable ground, the temperature in the container is remained on the temperature of regulation.Container has evaporimeter and refrigerator body with the engine-driven refrigerator, and described refrigerator body has engine or generator etc.Container is arranged on the engine-driven refrigerator in the framework that is independent of container, by this framework being installed on the one side of container, constitutes the container refrigerating plant.

The prior art document

Patent documentation

Patent documentation 1: TOHKEMY 2004-3706 communique

Summary of the invention

Invent problem to be solved

But, because when aforesaid frame was installed on the one side of container, the total length of container was elongated, so the whole volume of container can become big.In addition, even want aforementioned container is installed to the inside of container with the engine-driven refrigerator, also because aforementioned container is excessive and can not be received in the container with the engine-driven refrigerator.

In addition, container generally is to make in different factories with container with the engine-driven refrigerator, wanting under the situation of in same factory, assembling, will be in container assembled container engine-driven refrigerator, quality when keeping container to dispatch from the factory with the engine-driven refrigerator becomes difficult, in addition, owing to when assembling in container, need complicated operation, so production efficiency reduces.

Therefore, the present invention provides a kind of refrigerating plant in view of this problem, can change places at container contents container engine-driven refrigerator is set, and saves complicated operation in manufacturing process, enhances productivity.

Solve the means of problem

Problem to be solved by this invention as mentioned above, below, the means that this problem is used that solve are described.

Namely, in claim 1, the container refrigerating plant is equipped with the container of cuboid and is arranged at the container engine-driven refrigerator of the one side of this container, aforementioned container comprises with the engine-driven refrigerator: evaporimeter, described evaporimeter with cold-producing medium gasification, carries out heat exchange and cools off in aforementioned container; Refrigerator body, described refrigerator body carry out carrying out heat exchange with cold-producing medium and cold-producing medium being liquefied; Tube connector, described tube connector will couple together between aforementioned evaporation device and the refrigerator body, cold-producing medium is passed through, container is set with engine-driven refrigerator installing hole in the central authorities of the front vertical plate side of aforementioned container, around the front of refrigerator body, be formed for being fixed to container engine-driven refrigerator installing hole flange part on every side, aforementioned refrigerator body is configured in the central authorities of the front vertical plate side of container, the path that air flows is set between the side of the side of aforementioned refrigerator body and container, the aforementioned evaporation device can be configured in top or the below of aforementioned refrigerator body, with forming aforementioned tube connector by crooked pipe.

In claim 2, upper and lower in the left and right sides of said flange portion forms fixing hole, described fixing hole is used for the installation on the container, and the connection that utilizes connector to carry out under the state that is used for two containers are disposed in the inboard opposite to each other with the engine-driven refrigerator.

The effect of invention

As effect of the present invention, play effect described below.

In claim 1, owing to by the parts that are independent of the refrigerator body evaporimeter is set, and tube connector can be crooked, so, can accommodate the refrigerator body with engine-driven refrigerator installing hole from container, can easily evaporimeter be arranged on upside or the downside of the refrigerator body in the container.In addition, because container can be at different factory-assembled finished products, so production efficiency improves with engine-driven refrigerator and container.

In claim 2, because flange part can be fixed on container, and can carry out two containers with the connection that utilizes connector to carry out of engine-driven refrigerator, so, can easily carry out on container, installing, enhance productivity, and then, can easily carry out container packing and dispatching from the factory when dispatching from the factory with the engine-driven refrigerator.

Description of drawings

Fig. 1 is that expression is according to the perspective view of the structure of the integral body of the refrigerating plant of one embodiment of the present invention.

Fig. 2 is the perspective view of container.

Fig. 3 (a) is container with the perspective view of engine-driven refrigerator, (b) is to unload container under the state of cover with the perspective view of engine-driven refrigerator.

Fig. 4 (a) is the back side partial sectional view of refrigerating plant, (b) left surface partial sectional view.

Fig. 5 (a) is the back side partial sectional view of refrigerating plant, (b) left surface partial sectional view.

The figure of Fig. 6 step that to be expression pack into the container container with the engine-driven refrigerator: (a) be the side view of the container usefulness engine-driven refrigerator before packing into the container, (b) being the container midway that packs into the container with the side partial sectional view of engine-driven refrigerator and container, (c) is that container under the state that has packed into the container is with the side partial sectional view of engine-driven refrigerator.

The figure of Fig. 7 step that to be expression pack into the container container with the engine-driven refrigerator: (a) be the side view of the container usefulness engine-driven refrigerator before packing into the container, (b) being the container midway that packs into the container with the side partial sectional view of engine-driven refrigerator and container, (c) is that container under the state that has packed into the container is with the side partial sectional view of engine-driven refrigerator.

Fig. 8 is the expression container with the figure of the travel position of engine-driven refrigerator: (a) being front view, (b) is side view.

The specific embodiment

At first, utilize Fig. 1, Fig. 2, Fig. 4 and Fig. 5 to describe for the refrigerating plant according to a kind of embodiment.

The container of one side of front vertical plate side that container refrigerating plant 100 is equipped with the container 2 of cuboid and is arranged on container 2 is with engine-driven refrigerator 3.

Container 2 is formed the case shape of cuboid.Container 2 has: two

side panel

12,12, top panel 13, the back vertical plate framework 14 of base plate 11, covering left surface and right flank,

upright door

15,15, front vertical plate framework 16.

Base plate 11 is tabular components, disposes heat-insulating material at base plate 11.Heat-insulating material is configured in inside, any one party among the surface or two sides of base plate 11.In addition, at the upper surface of base plate 11, as shown in Figure 4, be provided with base plate lower guideway 32.As base plate lower guideway 32, in cutaway view, whole guide rail that separates a plurality of T fonts of spacing parallel arranging ground formation of regulation on base plate 11.In addition, as the other form of base plate lower guideway 32, also can in cutaway view, form a plurality of trapezoidal projections with the concavo-convex shape that has arranged side by side.By such formation, base plate lower guideway 32 can arrange the path that the air of cooling usefulness can pass through between the upper surface of the mounting surface of mounting goods etc. and base plate 11.

In addition, in the front portion of base plate 11, being positioned at the container described later of configuration with the part place below the position of engine-driven refrigerator 3, be provided with the catch tray 31(that drips with reference to Fig. 5).Evaporimeter 21 is arranged on body frame 42 below situation under, the catch tray 31 that drips is parts of accepting the water droplet that drips from evaporimeter 21.The water droplet that is stored in the catch tray 31 that drips is discharged to the outside.

Side panel 12, the 12nd, tabular component disposes heat-insulating material in side panel 12,12.Heat-insulating material is configured on

side panel

12,12 the inside and any one party among the surface or two sides.

Top panel 13 is tabular components, disposes heat-insulating material in top panel 13.Heat-insulating material is configured on the inside and any one party among the surface or two sides of top panel 13.

Base plate 11, two

side panel

12,12 and top panel 13 be mutually fixedly set by welding etc., form the tetragonal tube that front and back are opened wide.

In the back of container 2, back vertical plate framework 14 is installed.Back vertical plate framework 14 is formed on and is foursquare frame shape in the front view.The length of the top of back vertical plate framework 14 is identical with the left and right sides width of top panel 13, and the length of side and

side panel

12,12 lower-upper length are identical, and following length is identical with the left and right sides width of base plate 1.That is, the front of back vertical plate framework 14 form with by base plate 11, two

side panel

12,12 and the shape of the same hereinafter of tetragonal forming of top panel 13.

Back vertical plate framework 14 be connected to base plate 11, two

side panel

12,12 and top panel 13 on.In addition,

corner component

17,17,17,17 is by the Si Jiaochu of welded and installed to the back of four jiaos of back vertical plate framework 14 and tetragonal tube.During cargo handling, the connecting elements of cargo gear is connected on the

corner component

17,17,17,17.Whereby, can container 2 be sling by cargo gear.

At the side of back vertical plate framework 14, be respectively arranged with upright door 15,15.

Upright door

15,15 is fixed centered by each side rotationally, rotates by making

upright door

15,15, can opening container 2.Inner surface at

upright door

15,15 also disposes heat-insulating material.

In the front of container 2, front vertical plate framework 16 is installed.Front vertical plate framework 16 forms the frame shape of quadrangle (in the present embodiment, front view is square).In other words, front vertical plate framework 16 forms the peristome that front view is quadrangle (in the present embodiment, front view is square) (container engine-driven refrigerator installing hole 33) in the central authorities of tetragonal sheet material.The length of the top of front vertical plate framework 16 is identical with the left and right sides width of top panel 13, and the length of side and

side panel

12,12 lower-upper length are identical, and following length is identical with the left and right sides width of base plate 11.

Front vertical plate framework 16 be connected to base plate 11, two

side panel

12,12 and top panel 13 on.In addition,

corner component

17,17,17,17 is installed to the Si Jiaochu of the back of four jiaos of front vertical plate framework 14 and tetragonal tube by welding etc.During cargo handling, the connecting elements of cargo gear is connected on the

corner component

17,17,17,17.Whereby, can container 2 be sling by cargo gear.

Front view central part at front vertical plate framework 16, be provided with container with engine-driven refrigerator installing hole 33, around it, separate predetermined distance and be provided be used to the installation fixing hole 16a, the 16a that utilize the bolting container with engine-driven refrigerator 3 ...Install with fixing hole 16a, 16a ... configuration symmetrically up and down.

Secondly, utilize Fig. 1, Fig. 3 and Fig. 4 to describe with engine-driven refrigerator 3 for container.

Container has with engine-driven refrigerator 3: evaporimeter 21, and described evaporimeter 21 is configured in the container 2, cools off by heat exchange; Cold-producing medium compression, liquefaction that refrigerator body 22, described refrigerator body 22 will be vaporized, and be sent in the evaporimeter 21; Tube connector 23, described tube connector 23 passes through cold-producing medium with coupling together between evaporimeter 21 and the refrigerator body 22.

Evaporimeter 21 is to absorb the device that the heat (heat exchange) of the air of container 2 inside is carried out the cooling in the container 2 by the cold-producing medium that has made by the low-temp low-pressure change.Evaporimeter 21 has a plurality of

evaporator fans

41,41,41,41 and not shown evaporator tube.Evaporator fan 41 passes through to draw the air in the container 2, and makes this air and evaporator tube collision, and the air in the container 2 is cooled off, and afterwards, chilled air is sent in container 2 again.

Refrigerator body 22 comprises: body frame 42, condenser 43, condenser fan 44, exhaust silencer 45, generator 46, engine 47, compressor 48, controller 49 and fuel tank 50.Refrigerator body 22 has cover at its front surface, protects each parts.

Body frame 42 is frameworks of the case shape of cuboid, and front openings is provided with flange part 42a around it.Body frame 42 has the effect of the stiffener that container 2 is strengthened concurrently.Body frame 42 in its surface or inside a side or both be provided with heat-insulating material, whereby, five faces except the front are with adiabatic on every side.The size of body frame 42 and container are big or small roughly the same with engine-driven refrigerator installing hole 33.Thereby body frame 42 can enter container 2 inside with engine-driven refrigerator installing hole 33 from container.In addition, be provided with flange part 42a at the front surface of body frame 42, on flange part 42a, with the installation of front vertical plate framework 16 with fixing hole 16a, 16a ... the position be provided with

fixing hole

42b, 42b accordingly ...Like this, by bolt thread being installed to fixing

hole

42b, 42b ... use fixing hole 16a, 16a with installing ... in, flange part 42a is fixedly installed on the front vertical plate framework 16, body frame 42 can be fixedly installed on the container 2.

In addition, the inside of body frame 42 is divided into epimere, stage casing, hypomere, hold condenser 43, condenser fan 44 and exhaust silencer 45 at epimere, hold generator 46, engine 47, compressor 48 and controller 49 in the stage casing, hold fuel tank 50 at hypomere.

In addition, the upper surface in body frame 42 is provided with the catch tray 55(that drips with reference to Fig. 4).The catch tray 55 that drips is accepted the part of the water droplet that drips from evaporimeter 21 under situation about evaporimeter 21 being arranged on above the body frame 42.The water droplet that is stored in the catch tray 55 that drips is discharged to the outside.

Condenser 43 is connected with compressor 48, is to make cold-producing medium and the extraneous gas of the HTHP of sending from compressor 48 carry out the device of heat exchange to cool off.Condenser fan 44 arranges adjacently with condenser 43, makes wind and condenser 43 collisions of extraneous gas by utilizing condenser fan 44, and the cold-producing medium in the condenser 43 is cooled off.

Exhaust silencer 45 is arranged at the blast pipe of engine 47.By exhaust silencer 45 being arranged on the epimere of body frame 42, the influence of engine waste heat is difficult for involving stage casing and hypomere.

Engine 46 has the generating axle that is connected with the driving shaft of engine 47 by chain or belt etc.Thereby, generator 46 is driven.

Compressor 48 is the cold-producing mediums that suck the low-temp low-pressure that comes from evaporimeter 21, with its device that is compressed into the cold-producing medium of HTHP and is sent to condenser 43.Compressor 48 has the rotating shaft that is connected with the driving shaft of engine 47 by chain or belt etc.Whereby, compressor 48 is driven.

Controller 49 is the devices for equipment such as control engine 47, compressors 48.

Fuel tank 50 is containers of storing engine fuel.

Tube connector 23 is the pipes that couple together, make cold-producing medium to pass through with between evaporimeter 21 and the refrigerator body 22.Tube connector 23 is by the carrier pipe of 21 refrigerant conveyings from refrigerator body 22 to evaporimeter and cold-producing medium is constituted to the recurrent canal that refrigerator body 22 returns from evaporimeter 21.Tube connector 23 is made of metal, by forming by crooked bellows.Thereby, the relative position of evaporimeter 21 and refrigerator body 22 is changed under the state that they is being connected via tube connector.

Secondly, the mobile of air that utilizes Fig. 4 to be arranged on for evaporimeter 21 under the situation of top of refrigerator body 22 describes.

Above refrigerator body 22, be provided with the strum 61 be used to device 21 aspirated foreign bodies that avoid evaporating.In addition, in order to prevent being entered phenomenon (short circuit phenomenon) in the container 2 from the top by evaporimeter 21 chilled air, be provided with upper lid 62.

As shown in Figure 4, the air that blows out from evaporimeter 21 the lateral frame 12 of the side of refrigerator body 22,

container

2,12 and side part cover 63 between pass through, be sent to the below of refrigerator body 22.The gap of air by base plate lower guideway 32 that is sent to the below of refrigerator body 22 is sent in the container 2.

With container 2 inner chilled air by the attraction of evaporimeter fan 41 be pooled to the top, again from strum 61 to refrigerator body 22 side inflows.

Secondly, utilize Fig. 5, the mobile of air that is arranged on for evaporimeter 21 under the situation of below of refrigerator body 22 describes.

Above refrigerator body 22, be provided with the strum 61 be used to device 21 aspirated foreign bodies that avoid evaporating.

As shown in Figure 5, passed through the air of strum 61 from the top of refrigerator body 22, the lateral frame 12 of the side of refrigerator body 22,

container

2,12 and side part cover 63 between pass through, be sent to the below of refrigerator body 22.Be provided with lower cover 64 below refrigerator body 22, the device 21 that avoids evaporating directly sucks the air in the container 2.Be admitted in the container 2 by the gap of evaporimeter 21 chilled air by base plate lower guideway 32.

Secondly, for container is described with the method that engine-driven refrigerator 3 is installed on the container 2.

As shown in Figure 6, when container being packed into the container in 2 with the refrigerator body 22 of engine-driven refrigerator 3 and evaporimeter 21, at the rear of refrigerator body 22 configuration evaporimeter 21.Thereby, even container has the identical size of profile in the front view with refrigerator body 22 with engine-driven refrigerator installing hole 33, also evaporimeter 21 and refrigerator body 22 can be packed into the container in 2.

After refrigerator body 22 and evaporimeter 21 being packed into the container in 2, evaporimeter 21 is configured to the top of refrigerator body 22.Evaporimeter 21 is installed to the top of body frame 42.When the rear that makes evaporimeter 21 from refrigerator body 22 is moved upward, tube connector 23 bendings.

In addition, as shown in Figure 7, also can after refrigerator body 22 and evaporimeter 21 being packed into the container in 2, evaporimeter 21 be configured to the below of refrigerator body 22.Evaporimeter 21 is installed to the bottom of body frame 42.

Secondly, the form during with the conveying of engine-driven refrigerator 3 describes for container.

As shown in Figure 8, when carrying, side-

connector

65A, 65A and following side-

connector

65B, 65B fix with engine-driven refrigerator 3 two containers in the use in inboard mode in opposite directions.

Because last side-connector 65A has identical structure with following side-connector 65B, so, on side-connector 65A when describing, last side-connector 65A forms the connector that side view is tetragonal shape with tie-plate.In front surface bottom and the bottom, rear surface of last side-connector 65A, offer and fixing

hole

42b, 42b ... interval and corresponding fixing hole 65a, the 65a in position ...A plurality of fixing

hole

65a, 65a ... reaching the inboard downwards disposes prejudicially.Thereby in the time will going up side-connector 65A and be fixed on the flange part 42a, the top of last side-connector 65A is more outstanding upward than the upper end of flange part 42a, and the upper end of its outstanding length during than the top of evaporimeter 21 mountings having been arrived refrigerator body 22 is highly high.

In addition, take in the time will going up side-connector 65A and be fixed on the flange part 42a length that the outside portion of last side-connector 65A is more outstanding than the side of flange part 42a.And then the front and back length of last side-connector 65A is more longer with the length of the twice of the front and back length of engine-driven refrigerator 3 than container.

In such structure, under the situation of transfering containers with engine-driven refrigerator 3, pack in the manner hereinafter described.

Two containers are disposed in the consistent mode of back with engine-driven

refrigerator

3,3, namely, two containers are disposed in inboard mode in opposite directions with engine-driven

refrigerator

3,3, make side-

connector

65A, 65A and following side-

connector

65B, 65B between flange part 42a, the 42a of container with engine-driven

refrigerator

3,3, make fixing hole 42b, the 42b on the top, the left and right sides of

flange part

42a, 42a ... fixing

hole

65a, 65a with last side-

connector

65A, 65A ... consistently utilize bolt to fix.Similarly, make fixing hole 42b, the 42b of the bottom, the left and right sides of

flange part

42a, 42a ... fixing

hole

65a, 65a with following side-

connector

65B, 65B ... consistently utilize bolt to fix.

Like this, side-

connector

65B, 65B can fix container with engine-driven

refrigerator

3,3 with separating certain intervals under last side-

connector

65A, 65A reached, and can prevent that container from rocking the collision that causes mutually with engine-driven

refrigerator

3,3.

In addition, when carrying, evaporimeter 21 mountings have been configured to refrigerator body 22 above the time be configured to upper surface height than evaporimeter 21 owing to will go up the upper end of side-

connector

65A, 65A, so the device 21 that can avoid evaporating contacts with the barrier of top.That is last side-

connector

65A, 65A, can protect by the evaporimeter 21 of mounting.In addition, at this moment, between the medial surface of last side-

connector

65A, 65A and evaporimeter 21, dispose padded coaming 67.Whereby, side-

connector

65A, 65A and evaporimeter 21 contacts on can preventing that vibration when carrying from causing.

In addition, because the lower surface of side-

connector

65B, 65B is configured to more outstanding than the lower surface of refrigerator body 22 downwards down, so, between the lower surface of refrigerator body 22 and ground, form the space, can prevent that refrigerator body 22 from directly contacting with ground and sustain damage, and, the pawl 201 of carrying vehicles such as fork truck 200 can be inserted these spaces, can not need ground such as supporting plate easily to move.

As mentioned above, the container of one side that container refrigerating plant 100 is equipped with the container 2 of cuboid and is arranged at container 2 is with engine-driven refrigerator 3, and this container has with engine-driven refrigerator 3: cold-producing medium gasified to carry out heat exchange and the evaporimeter 21 that cools off in container 2; Cold-producing medium is carried out heat exchange with the refrigerator body 22 with cold-producing medium liquefaction; With the tube connector 23 that couples together and cold-producing medium is passed through between evaporimeter 21 and the refrigerator body 22, container is set with engine-driven refrigerator installing hole 33 in the central authorities of the front vertical plate side of container 2, around the front of refrigerator body 22, be formed for being fixed to container engine-driven refrigerator installing hole 33 flange part 42a on every side, refrigerator body 22 is configured in the central authorities of the front vertical plate side of container 2, the path that air flows is set between the side of the side of refrigerator body 22 and container 2, evaporimeter 21 can be configured in top or the below of refrigerator body 22, and utilization can form tube connector 23 by crooked pipe.

By such formation, because tube connector 23 can be crooked, so refrigerator body 22 can be accommodated with engine-driven refrigerator installing hole 33 from container, can easily evaporimeter 21 be arranged on upside or the downside of the refrigerator body 22 in the container 2.Because utilize the member that is independent of refrigerator body 22 that evaporimeter 21 is set, so, the relative position of evaporimeter 21 and refrigerator body 22 is changed, can easily container be used engine-driven refrigerator 3 to limited container 2 interior settings of width.In addition, because can be with container with 3 blocking of engine-driven refrigerator, can be at the factory-assembled finished product different with container 2, so production efficiency improves.

In addition, container refrigerating plant 100 forms fixing hole 42b in the upper and lower of the left and right sides of flange part 42a, described fixing hole 42b is used for the installation on the container 2, and utilize under the state that is used for two containers are disposed in the inboard opposite to each other with engine-driven refrigerator 3 side-connector 65A and under the connection carried out of side-connector 65B.

By such formation, since flange part 42a can realize on the container 2 fixing and utilize go up side-connector 65A and down two containers carrying out of side-connector 65B with the connection of engine-driven refrigerator 3, so, can easily carry out the assembling on the container 2 and enhance productivity, and then, can easily carry out packing and dispatching from the factory when container is dispatched from the factory with engine-driven refrigerator 3.In addition, because can be at the container of goods stage supply unitization with engine-driven refrigerator 3, so, can container be assembled into finished product with engine-driven refrigerator 3 with container 2 different factories, the production efficiency raising.

The industrial possibility of utilizing

The container of one side that the present invention can be applied to be equipped with the container of cuboid and be arranged on this container is with the container refrigerating plant of engine-driven refrigerator.

Description of reference numerals

2 containers

3 containers engine-driven refrigerator

21 evaporimeters

22 refrigerator bodies

23 tube connectors

33 containers engine-driven refrigerator installing hole

42 body frame

The 42a flange part

The 42b fixing hole

The last side-connector of 65A

Side-connector under the 65B

Claims

1. container refrigerating plant is equipped with the container of cuboid and is arranged at the container engine-driven refrigerator of the one side of this container,

Aforementioned container has with the engine-driven refrigerator: evaporimeter, aforementioned evaporation device with cold-producing medium gasification, carry out heat exchange and cool off in aforementioned container; Refrigerator body, aforementioned refrigerator body and cold-producing medium carry out heat exchange and cold-producing medium are liquefied; Tube connector, aforementioned tube connector passes through cold-producing medium with coupling together between aforementioned evaporation device and the refrigerator body,

Be provided with container with engine-driven refrigerator installing hole in the central authorities of the front vertical plate side of aforementioned container, around the front surface of refrigerator body, be formed for being fixed to container engine-driven refrigerator installing hole flange part on every side, aforementioned refrigerator body is configured in the central authorities of the front vertical plate side of container, the path that air flows is set between the side of the side of aforementioned refrigerator body and container, the aforementioned evaporation device can be configured in top or the below of aforementioned refrigerator body, by forming aforementioned tube connector by crooked pipe.

2. container refrigerating plant as claimed in claim 1, it is characterized in that, upper and lower in the left and right sides of said flange portion forms fixing hole, the aforementioned fixation hole is used for the installation on the container, and the connection that utilizes connector to carry out under the state that is used for two containers are disposed in the inboard opposite to each other with the engine-driven refrigerator.