CN104555158A - Multi-cavity tank structure applied to tank container - Google Patents

Abstract

The invention discloses a multi-cavity tank structure applied to a tank container. The multi-cavity tank structure comprises a material cavity, wherein the material cavity is internally provided with heating pipelines; the bottom part of the material cavity is provided with at least one heating cavity; each heating cavity is formed by an arc cavity wall which is fixedly connected at the bottom part of the material cavity, and the corresponding tank wall of the material cavity together; the heating cavity is communicated with the heating pipelines; the outer wall, which is defined by the material cavity and the heating cavities together, comprises a top plate, a bottom plate and side plates which are respectively tangential to the inner wall of the container; the two adjacent plates are in arc transition. According to the multi-cavity tank structure applied to the tank container, a multi-cavity structure is formed by the material cavity and the heating cavities, the material cavity has a maximum capacity, viscous liquid conveniently flows in the material cavity through the arc transition, and the bottom plate and the side plates of the material cavity are all taken as heat conducting plates due to the arrangement manner of the heating cavities, so that the heat conduction efficiency is improved, the situation that more viscous materials are remained at the bottom part of the container is prevented, and external heating and internal heating are commonly used at the same time.

Description

A kind of multi-cavity tank structure being applied to tank container

Technical field

The present invention relates to a kind of tank body freight container for transporting sticky liquid material, relating in particular to a kind of multi-cavity tank structure being applied to tank container.

Background technology

In freight container handling load be some sticky liquid materials as pitch, refinery residues, sulphur time, because it is easy to become solid state at normal temperatures, therefore, when in liquid form these materials being packed into the container, destination is arrived through long-distance transportation, these materials just become solid-state or not runny state, and needing again to be heated into liquid state could draw off from freight container.Therefore, the heating arrangement of freight container tank body is for most important transportation tank car.The heating arrangement of existing freight container tank body normally disc type heating pipe is arranged at tank interior or outer lower side realizes the thick liquid heating such as pitch, and due to the usual heat transmissibility of thick liquid poor, and the thick liquid after heating rises fast, cause the medium of tank base not easily to melt, remain more during discharging.

For solving the problem, Chinese patent literature discloses a kind of tank body of tank container, comprise: a tubular body and at least one heating tube wall be connected to bottom described tubular body outer wall, described heating tube wall arches upward relative to described tubular body outer wall and is encircled into described tubular body outer wall the runner entered for heating medium.

But this patent documentation has the following disadvantages: 1. well-known, existing freight container all has unified standard, therefore, in order to increase the capacity of tank body as much as possible, need the inner cavity size of tank body to be carried out maximize design with the maximum capacity realizing tank body; And in this patent documentation, tank body is set to cylindrical-shaped main body, and container cross-section is oblong, and therefore this tank body can not four angles of abundant container framework, and tank inner chamber capacity does not reach maxim; And tank body exterior bottom is also provided with multiple heating tube wall arched upward, for ensure described heating tube wall and inner wall of container tool at regular intervals, need reduce the inner cavity size of tank body further, tank body capacity reduces further; 2. due in the program, tank body outer setting heating tube wall, its can only by tank wall in tank body thick liquid material heat, whole heat process inefficiency, thermal losses is large.

Summary of the invention

For this reason, technical matters to be solved by this invention is that in tank body heating arrangement of the prior art, tank inner chamber capacity is little, and the efficiency of heating surface is low, and thermal losses is large; And then provide a kind of tank body capacity large, and the multi-cavity tank structure being applied to tank container that heat transfer efficiency is high.

For solving the problems of the technologies described above, a kind of multi-cavity tank structure being applied to tank container of the present invention, it comprises the material cavity for placing material, and is located at least one heating chamber bottom described material cavity; Wherein, be provided with water back in described material cavity, described heating chamber is formed jointly by the corresponding tank skin of an arc-shaped cavity wall and described material cavity, and described heating chamber is communicated with described water back; Described material cavity has the curved roof tangent with described container framework, curved plate and arc side plate, and adopts arc-shaped transition between adjacent two plates.

Described heating chamber is located at the described curved plate of described material cavity and the junction of described arc side plate.

The outside of described material cavity is located at by described arc-shaped cavity wall, and forms described heating chamber with the respective outer tank skin of described material cavity.

The described curved plate of described material cavity and the junction of described arc side plate are provided with middle transition section, described middle transition section forms arc convex in described material cavity inside and forms arc-shaped concave in described material cavity outside, and described arc-shaped concave and described arc-shaped cavity wall form described heating chamber jointly.

Described arc side plate lower end form be connected with described arc convex first is connected cambered surface, described curved plate forms connected with described arc convex second and is connected cambered surface.

Described arc-shaped cavity wall has a middle arc, and two joint faces be connected with described curved plate and the described arc side plate of described material cavity respectively; Angle wherein between two described joint faces is set to 90 degree.

Described heating chamber is set to two, and two described heating chambers extend along the length direction of described material cavity; Wherein, the end, one end of two described heating chambers forms the inlet port entered for external heat source medium, and other end end forms the intercommunicating pore be communicated with described water back.

Described heating chamber is set to two, and two described heating chambers are positioned at corresponding described base plate and the junction of described side plate and the length direction along described material cavity extends; Wherein, the elongated end of two described heating chambers is communicated with by one connecting pipe being positioned at described material cavity, heating chamber described in one of them forms the inlet port entered for external heat source medium, and heating chamber described in another forms the intercommunicating pore be communicated with described water back.

Described arc-shaped cavity wall and described material cavity adopt welding manner to be fixedly connected with.

Technique scheme of the present invention has the following advantages compared to existing technology:

1, in the present invention, water back is provided with in described material cavity; Also be provided with at least one heating chamber bottom described material cavity, described heating chamber is formed jointly by the corresponding tank skin of an arc-shaped cavity wall and described material cavity, and described heating chamber is communicated with described water back; Described material cavity has the curved roof tangent with described container framework, curved plate and arc side plate, and adopts arc-shaped transition between adjacent two plates; Namely described material cavity of the present invention and described heating chamber form multi-cavity structure, the overall outer wall that described material cavity and described heating chamber are formed jointly and described inner wall of container tangent, that is according to container standard size, described material cavity is set to maximum, to enable described material cavity, there is maximum capacity, between adjacent two plates, adopt arc-shaped transition simultaneously, be convenient to the flowing of thick liquid in described material cavity, improve the efficiency of heating surface; And, in the present invention, described heating chamber is communicated with described water back, the set-up mode of described heating chamber makes the described curved plate of described material cavity and described arc side plate all become heat-conducting plate, not only increase heat transfer efficiency, and viscous and dense material can be avoided to have larger remnants in described container base, also realize the common use of external heat and inner heating simultaneously, while there is maximum capacity at the described material cavity of guarantee, also have the good efficiency of heating surface.

2, in the present invention, described heating chamber is located at the described curved plate of described material cavity and the junction of described arc side plate, and the outside of described material cavity is located at by described arc-shaped cavity wall, and forms described heating chamber with the respective outer tank skin of described material cavity; Thus make full use of the bottom space of described material cavity and described container framework, the maximized basis of described material cavity can arrange described heating chamber smoothly.

3, in the present invention, the base plate of material cavity and the junction of side plate are provided with middle transition section, described middle transition section forms arc convex in described material cavity inside and forms arc-shaped concave in described material cavity outside, and arc-shaped concave and described arc-shaped cavity wall form described heating chamber jointly; Above-mentioned middle transition section can ensure that heating chamber has larger volume, and makes the heating surface area of material cavity comparatively large, and the efficiency of heating surface of heating chamber is high.

4, in the present invention, described side plate lower end form be connected with described arc convex first is connected cambered surface, described base plate forms connected with described arc convex second and is connected cambered surface; Described first connects cambered surface is convenient to described second setting being connected cambered surface the top that the liquid material after heating flows to described material cavity in time, be heated so that the solidification viscous and dense material on described material cavity top falls in time, thus improve the thermal efficiency of material, accelerate the liquefaction of the rear viscous and dense material of solidification.

5, in the present invention, described arc-shaped cavity wall has a middle arc, and two joint faces be connected with described base plate and the described side plate of described material cavity respectively; Angle wherein between two described joint faces is set to 90 degree; Like this, the entirety that described material cavity and described heating chamber are formed will be infinitely close to the inner chamber of described freight container, and take full advantage of two angles of the below of described freight container, the sectional area increasing described heating chamber further improves heat transference efficiency.

6, in the present invention, described heating chamber is set to two, and two described heating chambers extend along the length direction of described material cavity; Wherein, the end, one end of two described heating chambers forms the inlet port entered for external heat source medium, and other end end forms the intercommunicating pore be communicated with described water back; Heat source medium can be carried by two described inlet ports to two described heating chambers when heating so simultaneously, improving the speed of material liquefaction in material cavity, improving discharging efficiency.

7, in the present invention, described heating chamber is set to two, and two described heating chambers are positioned at corresponding described base plate and the junction of described side plate and the length direction along described material cavity extends; Wherein, the elongated end of two described heating chambers is communicated with by one connecting pipe being positioned at described material cavity, heating chamber described in one of them forms the inlet port entered for external heat source medium, and heating chamber described in another forms the intercommunicating pore be communicated with described water back; In the present invention, although only carry heat source medium by a described inlet port in described heating chamber, two described heating chambers are communicated with by described connecting pipe, the U-shaped structure of overall formation, the heating medium inputted is fully utilized, effectiveness of regenerator is provided.

Accompanying drawing explanation

In order to make content of the present invention be more likely to be clearly understood, below according to a particular embodiment of the invention and by reference to the accompanying drawings, the present invention is further detailed explanation, wherein

Fig. 1 is the Longitudinal cross section schematic being arranged at the multi-cavity tank body in freight container of embodiment 1;

Fig. 2 is the arc-shaped cavity wall schematic diagram described in embodiment 1;

Fig. 3 is the perspective view of heating chamber on base plate described in embodiment 1;

Fig. 4 is the birds-eye view of the water back in material cavity described in embodiment 1;

Fig. 5 is the water back schematic cross-section in material cavity described in embodiment 1;

Fig. 6 is the perspective view of heating chamber on base plate described in embodiment 2;

In figure, Reference numeral is expressed as: 01-freight container; 02-water back; 1-material cavity; 11-horizontal pipe; 12-base pipe; 13-lateral; 2-heating chamber; 21-inlet port; 22-intercommunicating pore; 23-connecting pipe; 3-arc-shaped cavity wall; Arc in the middle of 31-; 32-joint face; 4-arc-shaped concave; 5-arc convex; 6-first connects cambered surface; 7-second connects cambered surface; 8-base plate; 9-side plate.

Detailed description of the invention

Below in conjunction with accompanying drawing, the specific embodiment of the present invention is described in detail.Should be understood that, detailed description of the invention described herein, only for instruction and explanation of the present invention, is not limited to the present invention.

Embodiment 1

As shown in Figure 1, a kind of multi-cavity tank structure being applied to tank container of the present embodiment, it comprises the material cavity 1 for placing material, and is located at least one heating chamber 2 bottom described material cavity 1; Wherein, water back 02 is provided with in described material cavity 1; Described heating chamber 2 is formed jointly by the corresponding tank skin of an arc-shaped cavity wall 3 and described material cavity 1, and described heating chamber 2 is communicated with described water back 02; Described material cavity 1 has the curved roof tangent with described container framework 01, curved plate 8 and arc side plate 9, and adopts arc-shaped transition between adjacent two plates; Wherein, preferred described arc-shaped cavity wall 3 adopts welding manner to be fixedly connected with described material cavity 1.In the present embodiment, described material cavity 1 forms multi-cavity structure with described heating chamber 2, the outer wall that described material cavity 1 and described heating chamber 2 are formed jointly and described freight container 01 inwall tangent, that is according to container framework 01 standard size, described material cavity 1 is set to maximum, maximum capacity can be had to make described material cavity 1, between adjacent two plates, adopt arc-shaped transition simultaneously, be convenient to the flowing of thick liquid in described material cavity 1, improve the efficiency of heating surface; Further, in the present embodiment, described heating chamber 2 is communicated with described water back 02, the set-up mode of described heating chamber 2 makes the described curved plate 8 of described material cavity 1 and described arc side plate 9 all become heat-conducting plate, not only increase heat transfer efficiency, and viscous and dense material can be avoided bottom described container framework 01 to have larger remnants, also realize the common use of external heat and inner heating, to ensure that described material cavity 1 has the good efficiency of heating surface in addition of maximum capacity simultaneously.

Particularly, in the present embodiment, described heating chamber 2 is located at the described curved plate 8 of described material cavity 1 and the junction of described arc side plate 9, and the outside of described material cavity 1 is located at by described arc-shaped cavity wall 3, and forms described heating chamber 2 with the respective outer tank skin of described material cavity 1; Thus make full use of described material cavity 1 and the bottom space of described container framework 01, the described maximized basis of material cavity 1 can arrange described heating chamber 2 smoothly.

In the present embodiment, the curved plate 8 of preferred described material cavity 1 is provided with middle transition section with the junction of arc side plate 9, described middle transition section forms arc convex 5 in described material cavity 1 inside and forms arc-shaped concave 4 in described material cavity 1 outside, and described arc-shaped concave 4 forms described heating chamber 2 jointly with described arc-shaped cavity wall 3; Above-mentioned middle transition section can ensure that heating chamber 2 has larger volume, and makes the heating surface area of material cavity 1 comparatively large, and the efficiency of heating surface of heating chamber 2 is high.

Wherein, described arc side plate 9 lower end form be connected with described arc convex 5 first is connected cambered surface 6, described curved plate 8 forms connected with described arc convex 5 second and is connected cambered surface 7; Described first connects cambered surface 6 is convenient to described second setting being connected cambered surface 7 top that the liquid material after heating flows to described material cavity 1 in time, be heated so that the solidification viscous and dense material on described material cavity 1 top falls in time, thus improve the thermal efficiency of material, accelerate the liquefaction of the rear viscous and dense material of solidification.

As shown in Figure 2, described arc-shaped cavity wall 3 has a middle arc 31, and two joint faces 32 be connected with described curved plate 8 and the described arc side plate 9 of described material cavity 1 respectively; Angle wherein between two described joint faces 32 is set to 90 degree; Like this, the entirety that described material cavity 1 and described heating chamber 2 are formed will be infinitely close to the inner chamber of described freight container 01, take full advantage of two angles of the below of described freight container 01, and the sectional area of the described heating chamber 2 formed is greater than the sectional area of heating pipe used in the prior art, improves heat transference efficiency.

As shown in Figure 3, in the present embodiment, described heating chamber 2 is set to two, and two described heating chambers 2 extend along the length direction of described material cavity 1; Wherein, the end, one end of two described heating chambers 2 forms the inlet port 21 entered for external heat source medium, and other end end forms the intercommunicating pore 22 be communicated with described water back 02; Namely in the present embodiment, described heating chamber 2 is set to two, and extend along the length direction of described material cavity 1 and be symmetrically set, like this, in actual use, heat source medium can be carried by two described inlet ports 21 to two described heating chambers 2 simultaneously, improve the speed of material liquefaction in material cavity 1, improve discharging efficiency.Certain described heating chamber 2 also can be set to one or other numbers.

Further, on the basis of above-described embodiment, as shown in Figure 4, described water back 02 comprises the horizontal pipe 11 being parallel to described curved plate 8 and arranging, and relative to the vertical pipeline that described horizontal pipe 11 is vertically arranged; And the outlet of described horizontal pipe 11 is connected with the entrance of described vertical pipeline, described material cavity 1 is stretched out in the outlet of described vertical pipeline; Wherein, described vertical pipeline comprises a base pipe 12 and some laterals 13 carrying out circumference distribution centered by described base pipe 12.Namely in the present embodiment, directly do not discharged by vertical straight pipeline as in the prior art by the heating medium of discharging in described horizontal pipe 11, but be divided into multiply by described lateral 13 and described base pipe 12 after discharging in described horizontal pipe 11, by because described lateral 13 be carry out centered by described base pipe 12 circumference distribution, heating medium like this in described lateral 13 can heat the viscous and dense material in described material cavity 1, thus the viscous and dense material at described material cavity 1 inner bottom part and middle part can be heated simultaneously, the centre of the viscous and dense material of the solid shape post liquefaction that is heated is made to be divided into polylith, play brokenly core effect, so that material liquefies further.

Particularly, as shown in Figure 5, multiple described lateral 13 in the vertical direction centered by described base pipe 12 forms pyramidal structure; The viscous and dense material that the pyramidal structure formed is convenient to post liquefaction near described lateral 13 flows to the top of described material cavity 1, so that the viscous and dense material also do not liquefied is heated near water back 02.

Embodiment 2

A kind of multi-cavity tank structure being applied to tank container of the present embodiment, it comprises material cavity 1, is provided with water back 02 in described material cavity 1; Also be provided with at least one heating chamber 2 bottom described material cavity 1, described heating chamber 2 is formed jointly by the corresponding tank skin of the arc-shaped cavity wall 3 be fixedly connected on bottom described material cavity 1 and described material cavity 1, and described heating chamber 2 is communicated with described water back 02; The outer wall that described material cavity 1 and described heating chamber 2 surround jointly has curved roof tangent with the inwall of freight container 01 respectively, curved plate 8 and arc side plate 9, and adjacent two plates pass through arc-shaped transition; Wherein, preferred described arc-shaped cavity wall 3 adopts welding manner to be fixedly connected with described material cavity 1.In the present embodiment, the outer wall that described material cavity 1 and described heating chamber 2 are formed jointly and described freight container 01 inwall tangent, that is according to freight container 01 standard size, described material cavity 1 is set to maximum, maximum capacity can be had to make described material cavity 1, between adjacent two plates, adopt arc-shaped transition simultaneously, be convenient to the flowing of thick liquid in described material cavity 1, improve the efficiency of heating surface; Further, in the present embodiment, described heating chamber 2 is communicated with described water back 02, the set-up mode of described heating chamber 2 makes the described curved plate 8 of described material cavity 1 and described arc side plate 9 all become heat-conducting plate, not only increase heat transfer efficiency, and viscous and dense material can be avoided bottom described freight container 01 to have larger remnants, also realize the common use of external heat and inner heating, to ensure that described material cavity 1 has the good efficiency of heating surface in addition of maximum capacity simultaneously.

Particularly, in the present embodiment, the inside of described material cavity 1 is located at by described arc-shaped cavity wall 3, and form described heating chamber 2 with the respective inside tank skin of described material cavity 1; Like this, the outer wall that described material cavity 1 and described heating chamber 2 surround jointly just refers to the outer wall of described material cavity 1 self.

Described arc side plate 9 lower end form be connected with described arc-shaped cavity wall 3 first is connected cambered surface 6, described curved plate 8 forms connected with described arc-shaped cavity wall 3 second and is connected cambered surface 7; Described first connects cambered surface 6 is convenient to described second setting being connected cambered surface 7 top that the liquid material after heating flows to described material cavity 1 in time, be heated so that the solidification viscous and dense material on described material cavity 1 top falls in time, thus improve the thermal efficiency of material, accelerate the liquefaction of the rear viscous and dense material of solidification

As shown in Figure 6, described heating chamber 2 is set to two, two described heating chambers 2 be positioned at corresponding described base plate 8 with the junction of described side plate 9 and the length direction along described material cavity 1 extend; Wherein, the elongated end of two described heating chambers 2 is communicated with by one connecting pipe 23 being positioned at described material cavity 1, heating chamber 2 described in one of them forms the inlet port 21 entered for external heat source medium, and heating chamber 2 described in another forms the intercommunicating pore 22 be communicated with described water back 02.In the present embodiment, although only carry heat source medium by a described inlet port 21 in described heating chamber 2, two described heating chambers 2 are communicated with by described connecting pipe 23, the U-shaped structure of overall formation, the heating medium inputted is fully utilized, effectiveness of regenerator is provided.

Described water back 02 comprises the horizontal pipe 11 being parallel to described curved plate 8 and arranging, and relative to the vertical pipeline that described horizontal pipe 11 is vertically arranged; And the outlet of described horizontal pipe 11 is connected with the entrance of described vertical pipeline, described material cavity 1 is stretched out in the outlet of described vertical pipeline; Wherein, described vertical pipeline comprises a base pipe 12 and some laterals 13 carrying out circumference distribution centered by described base pipe 12.Namely in the present embodiment, directly do not discharged by vertical straight pipeline as in the prior art by the heating medium of discharging in described horizontal pipe 11, but be divided into multiply by described lateral 13 and described base pipe 12 after discharging in described horizontal pipe 11, by because described lateral 13 be carry out centered by described base pipe 12 circumference distribution, heating medium like this in described lateral 13 can heat the viscous and dense material in described material cavity 1, thus the viscous and dense material at described material cavity 1 inner bottom part and middle part can be heated simultaneously, the centre of the viscous and dense material of the solid shape post liquefaction that is heated is made to be divided into polylith, play brokenly core effect, so that material liquefies further.

Obviously, above-described embodiment is only for clearly example being described, and the restriction not to embodiment.For those of ordinary skill in the field, can also make other changes in different forms on the basis of the above description.Here exhaustive without the need to also giving all embodiments.And thus the apparent change of extending out or variation be still among the protection domain of the invention.

Claims (9)

1. be applied to a multi-cavity tank structure for tank container, it is characterized in that: it comprises the material cavity (1) for placing material, and be located at least one heating chamber (2) bottom described material cavity; Wherein, water back (02) is provided with in described material cavity (1), described heating chamber (2) is formed jointly by the corresponding tank skin of an arc-shaped cavity wall (3) and described material cavity (1), and described heating chamber (2) is communicated with described water back (02); Described material cavity (1) has the curved roof tangent with described container framework (01), curved plate (8) and arc side plate (9), and adopts arc-shaped transition between adjacent two plates.

2. a kind of multi-cavity tank structure being applied to tank container according to claim 1, is characterized in that: described heating chamber (2) is located at the described curved plate (8) of described material cavity (1) and the junction of described arc side plate (9).

3. a kind of multi-cavity tank structure being applied to tank container according to claim 2, it is characterized in that: described arc-shaped cavity wall (3) is located at the outside of described material cavity (1), and form described heating chamber (2) with the respective outer tank skin of described material cavity (1).

4. a kind of multi-cavity tank structure being applied to tank container according to claim 3, it is characterized in that: the described curved plate (8) of described material cavity (1) and the junction of described arc side plate (9) are provided with middle transition section, described middle transition section forms arc convex (5) in described material cavity (1) inside and forms arc-shaped concave (4) in described material cavity (1) outside, and described arc-shaped concave (4) and described arc-shaped cavity wall (3) form described heating chamber (2) jointly.

5. a kind of multi-cavity tank structure being applied to tank container according to claim 4, it is characterized in that: described arc side plate (9) lower end form be connected with described arc convex (5) first is connected cambered surface (6), described curved plate (8) forms connected with described arc convex (5) second and is connected cambered surface (7).

6. a kind of multi-cavity tank structure being applied to tank container according to any one of claim 1-5, it is characterized in that: described arc-shaped cavity wall (3) has a middle arc (31), and two joint faces (32) be connected with described curved plate (8) and the described arc side plate (9) of described material cavity (1) respectively; Angle wherein between two described joint faces (32) is set to 90 degree.

7. a kind of multi-cavity tank structure being applied to tank container according to any one of claim 1-6, it is characterized in that: described heating chamber (2) is set to two, two described heating chambers (2) extend along the length direction of described material cavity (1); Wherein, the end, one end of two described heating chambers (2) forms the inlet port (21) entered for external heat source medium, and other end end forms the intercommunicating pore (22) be communicated with described water back (02).

8. a kind of multi-cavity tank structure being applied to tank container according to any one of claim 1-6, it is characterized in that: described heating chamber (2) is set to two, two described heating chambers (2) be positioned at corresponding described base plate (8) with the junction of described side plate (9) and the length direction along described material cavity (1) extend; Wherein, the elongated end of two described heating chambers (2) is communicated with by one connecting pipe (23) being positioned at described material cavity (1), heating chamber described in one of them (2) forms the inlet port (21) entered for external heat source medium, and heating chamber described in another (2) forms the intercommunicating pore (22) be communicated with described water back (02).

9. a kind of multi-cavity tank structure being applied to tank container according to any one of claim 1-8, is characterized in that: described arc-shaped cavity wall (3) adopts welding manner to be fixedly connected with described material cavity (1).