CN2637922Y

CN2637922Y - Segment cold slag heat excahnge transfer device

Info

Publication number: CN2637922Y
Application number: CN 03239010
Authority: CN
Inventors: 龚辉勤
Original assignee: Individual
Current assignee: Individual
Priority date: 2003-02-21
Filing date: 2003-02-21
Publication date: 2004-09-01
Anticipated expiration: 2013-02-21

Abstract

The utility model relates to a subsection type cold slag heat-exchanging transporting device, comprising a feeding side end-cover, a multi-section middle heat-exchanging and transporting section and a discharging section. The utility model is characterized in that the middle heat-exchanging and transporting section is formed by the serial connection of a plurality of sections to meet the requirement to the cold slag heat-exchanging transporting device by a large size and long distance vibrating cold-slag machine, and the subsection type cold slag heat-exchanging and transporting device is convenient for the operations such as, manufacturing, delivering and maintaining, etc, and can eliminate the damage to the fixed-equipment of bushed tube-bank of the cold slag heat-exchanging transporting device when the swing is bigger. The utility model causes the running efficiency of the vibrating cold slag machine to rank the first level among various cold slag machines both at home and overseas, and causes that of the water cooling cold slag machine to rank the first.

Description

The cold slag heat exchange of segmented conveying device

The utility model relates to a kind of equipment of removing ash, slag or slag from the combustion chamber, particularly vibration-type slag cooling machine.

In the prior art, though vibration-type slag cooling machine in claims of PCT/CN98/00074, point out this cold slag machine can multistage serial connection, need be optimized and perfect the structural shape of its cold slag heat exchange conveying device of vibration-type slag cooling machine of multistage serial connection.

The purpose of this utility model provides several cold slag machine multistage serial connections that satisfy, and is convenient to make, operation such as transportation, installation, maintenance and strong vibration resistance, cold slag heat exchange conveying device that cold slag ability is bigger are arranged.

A kind of cold slag heat exchange conveying device is by the feed side end cap, heat exchange transportation section in the middle of the multistage, discharging section is formed, heat exchange transportation section wherein, be provided with overcoat, interior cover, be provided with many sliders between interior cover and the overcoat, the two ends of interior cover, overcoat are welded with adpting flange, in cover, the hydroecium between the overcoat with diaphragm rings to being divided into two collecting chambers, be provided with multilayer pipe row in the interior cover, the number of plies is generally the 1-10 layer, is welded with heat exchanger fin on the pipe row, every layer of pipe row's two ends are provided with water collecting header, communicate with two collecting chambers of interior cover, outer inner room respectively.Also can weld heat exchanger fin on the water collecting header.

The hoop dividing plate of heat exchange transportation section can replace with two separation flanges in the middle of in the said apparatus, and interior cover, overcoat are divided into two sections again.

The utility model advantage compared with prior art is: can satisfy the requirement of the large-scale cold slag machine of long distance to cold heat exchange conveying device, promptly require heat exchange area bigger, operations such as making, transportation, installation, maintenance are convenient in the segmentation setting.

Description of drawings

Fig. 1 is provided with the front view of hoop dividing plate for cold slag heat exchange conveying device

Fig. 2 is that cold slag heat exchange conveying device is separated the front view that flange replaces the hoop dividing plate with two

Fig. 3, Fig. 4 are the sectional drawing of cold slag heat exchange conveying device

Embodiment 1:

As Fig. 1, Fig. 3, shown in Figure 4, a kind of cold slag heat exchange conveying device, by feed side end cap A, heat exchange transportation section B in the middle of the multistage, discharging section C forms, this device is provided with overcoat 1, interior cover 2, hoop dividing plate 3, overcoat 1, the adpting flange 4 at interior cover 2 two ends, slag import 5, cooling water inlet 8, cooling-water duct 9, coolant outlet 10, slag passage 6, discharging section is provided with slag outlet 7, be divided into two hydroeciums with hoop dividing plate 3 between the overcoat 1 of every section heat exchange transportation section and the interior cover 2, cooling-water duct 9 is by chuck intake chamber 91, pipe row water-inlet header 92, heat exchanger tube 93 on the pipe row, pipe discharge water header 94, chuck water-supplying chamber 95, cross over pipe 96, feed side end cap chuck 97 is formed, heat exchanger tube 93 on the pipe row is provided with heat exchanger fin 11, pipe row water-inlet header 92 and pipe discharge water header 94 are provided with heat exchanger fin 12, the heat exchanger tube about 93 of every layer of pipe row band heat exchanger fin 11 is close to layout, two ends and water-inlet header 92, go out water manifold 94 UNICOMs, again with

chuck intake chamber

91,95 UNICOMs of chuck water-supplying chamber, UNICOM's mode is except the horizontal UNICOM shown in the figure, up and down between Pai the water-inlet header 92 after the UNICOM can with chuck intake chamber 91 in vertical direction UNICOM, up and down row go out between the water manifold 94 after the UNICOM can with chuck water-supplying chamber 95 in vertical direction UNICOM, between the header, UNICOM's mode between header and the hydroecium, but other angle is UNICOM also, but does not have vertical direction, horizontal direction UNICOM is good.Heat exchanger tube 93 is provided with sleeve pipe 13, fuses about every layer of sleeve pipe and welds by connector and interior cover 2, and sleeve pipe 13 also can up and down, be weldingly connected by connector between the sleeve pipe of the left and right sides by the base plate welding of supporting with interior cover.When cooling water when the discharging oral-lateral is intake, on same array of pipes is arranged, water-inlet header 92 is lower than going out water manifold 94, overcoat 1, the section of interior cover 2 is made up of circular arc, perhaps be oval, heat exchanger tube 93 is a pipe, pipes row layered arrangement in the interior cover 2, be generally 1～10 layer, preferable with 4～6 layers, can offer slag inlet 5 on the heat exchange transportation section in the middle of the multistage, peep hole 14, and can on middle heat exchange transportation section, change the individual layer shrouding of establishing no water jacket by the local interlayer of cancelling overcoat 1 and interior cover 2, be provided with many sliders 15 between the overcoat 1 of this device and the interior cover 2, charging aperture also can be located on the feed side end cap of water jacket, the overcoat 1 of this end cap end face, interior cover 2 can be with pressure-resistance structures such as pot types, when the overcoat 1 of this end face, when interior cover 2 is planar structure, need with many connectors respectively with overcoat 1, interior cover 2 welding, the feed side end cap of this device also can not established water jacket, and the feed side end cap also can fuse with the middle heat exchange transportation section that end cap is close to.

This device is applicable to that any driving mechanism is the vibration-type slag cooling machine of vibrating mechanism.

Embodiment 2:

As Fig. 2, Fig. 3, shown in Figure 4, a kind of cold slag heat exchange conveying device, by feed side end cap A, heat exchange transportation section B in the middle of the multistage, discharging section C forms, this device is by overcoat 1, interior cover 2, the separation flange 3 in vertical centre position of overcoat 1 and interior cover 2 ', the adpting flange 4 at overcoat 1 and interior cover 2 two ends, slag import 5, cooling water inlet 8, cooling-water duct 9, coolant outlet 10, slag passage 6, slag outlet 7 on the discharging section constitutes, every section heat exchange transportation section is at overcoat 1, in cover vertical centre position of 2 with two hydroeciums of separation flange 3 ' be divided into, cooling-water duct 9 is by chuck intake chamber 91, pipe row water-inlet header 92, heat exchanger tube 93 on the pipe row, pipe discharge water header 94, chuck water-supplying chamber 95, cross over pipe 96, feed side end cap chuck 97 is formed, heat exchanger tube 93 on the pipe row is provided with heat exchanger fin 11, pipe row water-inlet header 92 and pipe discharge water header 94 are provided with heat exchanger fin 12, the heat exchanger tube about 93 of every layer of pipe row band heat exchanger fin 11 is close to layout, two ends and water-inlet header 92, go out water manifold 94 UNICOMs, again with

chuck intake chamber

91,95 UNICOMs of chuck water-supplying chamber, UNICOM's mode is except the horizontal UNICOM shown in the figure, up and down between Pai the water-inlet header 92 after the UNICOM can with chuck intake chamber 91 in vertical direction UNICOM, up and down row go out between the water manifold 94 after the UNICOM can with chuck water-supplying chamber 95 in vertical direction UNICOM, between the header, UNICOM's mode between header and the hydroecium, but other angle is UNICOM also, but there is not vertical direction, horizontal direction UNICOM is good, heat exchanger tube 93 is provided with sleeve pipe 13, fuse about every layer of sleeve pipe and weld by connector and interior cover 2, sleeve pipe 13 also can be by the base plate welding of supporting with interior cover, be weldingly connected by connector between the sleeve pipe of the left and right sides up and down.When cooling water when the discharging oral-lateral is intake, on same array of pipes is arranged, water-inlet header 92 is lower than going out water manifold 94, overcoat 1, the section of interior cover 2 is made up of circular arc or is oval, heat exchanger tube 93 is a pipe, pipes row layered arrangement in the interior cover 2, be generally 1～10 layer, preferable with 4～6 layers, can offer slag inlet 5 on the heat exchange transportation section in the middle of the multistage, peep hole 14, and can on middle heat exchange transportation section, change the individual layer shrouding of establishing no water jacket by the local interlayer of cancelling overcoat 1 and interior cover 2, and being provided with many sliders 15 between the overcoat 1 of this device and the interior cover 2, charging aperture also can be located on the feed side end cap of water jacket, the overcoat 1 of this end cap end face, interior cover 2 can be used pressure-resistance structures such as pot type, overcoat 1 when this end face, in cover 2 when be planar structure, need with many connectors respectively with overcoat 1, interior cover 2 welding, the feed side end cap of this device, also can not establish water jacket, the feed side end cap also can fuse with the middle heat exchange transportation section that end cap is close to.

Claims

1, the cold slag heat exchange of segmented conveying device, constitute by overcoat (1), interior cover (2), hoop plate washer (3), adpting flange (4), slag import (5), slag passage (6), slag outlet (7), cooling water inlet (8), cooling-water duct (9), coolant outlet (10), it is characterized in that: when this device by feed side end cap, middle heat exchange transportation section, when discharging section is formed, the middle heat exchange transportation section of this device is formed by the multistage serial connection, when this device was not provided with feed side end cap, discharging section separately, this device was formed by the multistage serial connection.

2, cold slag heat exchange conveying device according to claim 1 is characterized in that: available two of hoop plate washer (3) is separated flange (3 ') replacement, and the overcoat (1) of every section heat exchange transportation section, interior cover (2) are divided into two sections again.

3, according to described any the cold slag heat exchange conveying device of claim 1～2, it is characterized in that: cooling-water duct (9) is made up of heat exchanger tube (93), pipe discharge water header (94), chuck water-supplying chamber (95), cross over pipe (96), feed side end cap chuck (97) on chuck intake chamber (91), pipe row water-inlet header (92), the pipe row.

4. cold slag heat exchange conveying device according to claim 3, it is characterized in that: the heat exchanger tube (93) on the pipe row is provided with heat exchanger fin (11), pipe row's water-inlet header (92) and pipe discharge water header (94) are provided with heat exchanger fin (12), be close to layout about the heat exchanger tube (93) of every layer of pipe row's band heat exchanger fin (11), two ends and water-inlet header (92), go out water manifold (94) UNICOM, again with chuck intake chamber (91), UNICOM of chuck water-supplying chamber (95), heat exchanger tube (93) is provided with sleeve pipe (13), fuses about every layer of sleeve pipe and welds by connector and interior cover (2).

5, cold slag heat exchange conveying device according to claim 4, it is characterized in that: the section of overcoat (1), interior cover (2) is made up of circular arc, perhaps is oval, heat exchanger tube (93) is a pipe, pipe row layered arrangement in the interior cover (2) is generally 1～10 layer, and is preferable with 4～6 layers.

6, cold slag heat exchange conveying device according to claim 5, it is characterized in that: can offer slag inlet (5) on the heat exchange transportation section in the middle of the multistage, peep hole (14), and can on middle heat exchange transportation section, change the individual layer shrouding of establishing no water jacket by the interlayer of local cancellation overcoat (1), interior cover (2), be provided with many sliders (15) between overcoat of this device (1) and the interior cover (2).

7, cold slag heat exchange conveying device according to claim 6, it is characterized in that: water-inlet header (92) up and down between the row after the UNICOM can with chuck intake chamber (91) in vertical direction UNICOM, go out water manifold (94) arrange up and down between after the UNICOM can with chuck water-supplying chamber (95) in vertical direction UNICOM.

8, cold slag heat exchange conveying device according to claim 6 is characterized in that: sleeve pipe (13) can be by supporting and interior cover welding.