CN111360100A

CN111360100A - Cooler processing technology based on energy conservation and environmental protection

Info

Publication number: CN111360100A
Application number: CN202010178590.2A
Authority: CN
Inventors: 张俊辉; 余翔; 金狄飞; 丁亚丽; 丁云
Original assignee: Shaoxing Silver Ball Pressure Vessel Manufacturing Co ltd
Current assignee: Shaoxing Silver Ball Pressure Vessel Manufacturing Co ltd
Priority date: 2019-06-11
Filing date: 2019-06-11
Publication date: 2020-07-03
Anticipated expiration: 2039-06-11
Also published as: CN110091136B; CN111360100B; CN110091136A

Abstract

The invention discloses a cooler processing technology based on energy conservation and environmental protection, in particular to a cooler barrel processing technology, which comprises the following steps: a. bending a steel plate by a plate bending machine to form a cylinder; b. welding the longitudinal seam on the cylinder obtained in the step a by a welding gun; c. b, hoisting the welded cylinders in the step b to a metal support frame through a hoisting arm, wherein the number of the cylinders is 2, and the two cylinders are arranged side by side; and then welding the circular seam at the joint of the two cylinders by adopting welding equipment to obtain the cylinder body. According to the invention, the heating parts are respectively arranged on the upper roller part and the lower roller part, so that the steel plate always has a certain temperature, the plate bending operation difficulty is reduced, and the plate bending time is shortened; because the heat insulation parts are respectively arranged outside the upper roller body and the lower roller body, the heat loss of the upper roller body and the lower roller body is effectively avoided, and the energy consumption is reduced; secondly, still avoided the possibility of scald, the work factor of safety is high.

Description

Cooler processing technology based on energy conservation and environmental protection

Technical Field

The invention belongs to the technical field of cooler part machining, and particularly relates to a cooler machining process based on energy conservation and environmental protection.

Background

A cooler is required in a large compressor, and the cooler is generally composed of a cylinder, a copper pipe arranged in the cylinder, and air chambers connected with two ends of the cylinder. The cylinder is usually a cylinder formed by bending a steel plate by a plate bending machine to form a longitudinal seam, then welding the longitudinal seam by a welding gun, and then welding two or more cylinders together to obtain the cylinder. The steel sheet need keep certain temperature when being crooked to guarantee that the steel sheet can be comparatively easy emergence deformation, nevertheless current plate bender does not have the effect of heating or heat preservation to the steel sheet, has increased the degree of difficulty and the consuming time of bent plate.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides the energy-saving and environment-friendly cooler processing technology which is low in bent plate difficulty and high in processing efficiency.

In order to achieve the purpose, the invention adopts the following technical scheme: a cooler processing technology based on energy conservation and environmental protection comprises the following steps:

a. bending a steel plate by a plate bending machine to form a cylinder;

b. welding the longitudinal seam on the cylinder obtained in the step a by a welding gun;

c. b, hoisting the welded cylinders in the step b to a metal support frame through a hoisting arm, wherein the number of the cylinders is 2, and the two cylinders are arranged side by side; then, welding the circular seam at the joint of the two cylinders by adopting welding equipment to obtain a cylinder body;

the plate bending machine in the step a comprises a machine frame, an upper roller piece arranged on the machine frame, two lower roller pieces arranged on the machine frame, a driving part for driving the upper roller piece and the lower roller piece to synchronously rotate, a first heating part for heating the upper roller piece, a first heat insulation part for preserving and insulating heat of the upper roller piece, a second heating part for heating the lower roller piece and a second heat insulation part for preserving and insulating heat of the lower roller piece; in the process of bending the steel plate by the plate bending machine, the steel plate is moved back and forth by the gap between the upper roller body and the lower roller body, the first heating part continuously heats the upper roller part, and the second heating part continuously heats the lower roller part.

According to the invention, the upper roller part and the lower roller part are respectively provided with the heating parts, so that the upper roller body and the lower roller body can both maintain a higher temperature in the plate bending process, and further the steel plate is continuously heated in the plate bending process, so that the steel plate always has a certain temperature and stronger ductility, the plate bending operation difficulty is reduced, the plate bending time is shortened, and the processing efficiency is high; moreover, because the heat insulation parts are respectively arranged outside the upper roller body and the lower roller body, the heat loss of the rest parts on the upper roller body and the lower roller body, which are in contact with the steel plate, can be effectively avoided, and the energy consumption is reduced; secondly, the heat insulation component can also avoid the upper and lower roll body not to put into operation the part high temperature, even the staff carelessly touches also the difficult condition that appears the scald, and factor of safety is high in the work.

The first heating part comprises an annular accommodating cavity arranged in the upper roller part, an oil inlet channel arranged at one end of the upper roller part, an oil outlet channel arranged at the other end of the upper roller part, an oil inlet joint connected with the oil inlet channel, an oil outlet joint connected with the oil outlet channel, a first oil guide channel arranged on the upper roller body and used for communicating the oil inlet channel with the annular accommodating cavity, and a second oil guide channel used for communicating the oil outlet channel with the annular accommodating cavity; it sets up for loop configuration to hold the chamber, at last roll body pivoted in-process, hot oil can be piled up all the time on corresponding to the position of going up the bottom of the roll body, should be in the part that is direct and steel sheet contact in the course of the work, thereby can enough reduce the input volume of hot oil, can guarantee again to carry out good heat preservation heating to the steel sheet all the time, and because go up the roll body all the time for pivoted state, and then all inner walls all can with hot oil contact, it is lower not to go up roll body local surface temperature to appear, be difficult to the problem on quick with heat transfer to the steel sheet after rotating to lower part position, the problem of the not high efficiency of heating.

The first heat insulation component comprises a housing covered outside the upper roll piece and a heat insulation layer arranged in the housing, the lower parts of the housing and the heat insulation layer are both provided with openings, and at least part of the lower part of the upper roll body extends out of the openings; the frame is provided with two fixing frames, the oil inlet joint and the oil outlet joint respectively penetrate through the two fixing frames, and the oil inlet joint and the oil outlet joint are respectively in rotation stopping fit with the fixing frames; the operation of the first heating member for continuously heating the upper roller member includes the steps of: hot oil is pumped into the oil inlet joint and flows into the annular accommodating cavity after flowing through the oil guide channel, redundant oil is conveyed outwards from the oil outlet channel, and hot oil circulation is formed in the upper roller body; in the circulation process, the upper roller body is driven by the driving part to rotate, and hot oil in the annular accommodating cavity stays at the lowest position of the upper roller body under the action of gravity to heat the whole surface of the upper roller body; the lower parts of the encloser and the heat insulation layer are provided with openings, so that the lower part of the upper roller body is directly exposed and contacted with the steel plate to directly and well heat the steel plate; after the lower part is removed, the rest parts of the upper roller body are all contacted with the heat insulation layer, the condition that the surface of the upper roller body is cooled after being heated by hot oil is effectively avoided, and the heat energy utilization rate is improved.

The lower roll body comprises a hollow roll body, an opening arranged at one end of the roll body, an end cover fixedly connected with the opening in a welding mode, a driving shaft arranged on the end cover, a plurality of strip-shaped oil outlet grooves and a shaft body arranged at the other end of the roll body, wherein the driving shaft and the shaft body are respectively provided with a through groove.

The second heating part comprises a hot oil storage part arranged in the roller body, a storage tank which is arranged on the hot oil storage part and has an opening at the upper part, an oil leakage gap formed between the upper part of the hot oil storage part and the inner wall of the roller body, connecting shafts fixedly arranged at the left end and the right end of the hot oil storage part, an oil outlet end cover covering one end of the roller body, which is provided with an oil outlet groove, an oil outlet pipe arranged on the oil outlet end cover, an oil inlet groove arranged on one of the connecting shafts and an oil inlet pipe arranged in the oil inlet groove; the connecting shaft penetrates through the through groove, the outer end of the connecting shaft penetrates out of the outer end of the through groove, a support fixedly connected with the outer end of the connecting shaft is arranged on the rack, and the inner surface of the oil outlet end cover is in sealing fit with the outer surface of the roller body; the operation of the second heating part for continuously heating the lower roller comprises the following steps: hot oil is pumped into the hot oil storage part by a pump through an oil inlet pipe and an oil inlet groove, after the storage groove is filled, the hot oil flows out from an oil gap and flows downwards along the inner surface of the roller body to the lowest part of the lower roller body, then the hot oil flows out from the oil outlet groove to an oil outlet end cover and is discharged outwards through an oil outlet pipe, and the discharged oil is heated and then enters the lower roller body through the oil inlet pipe again to circularly heat the lower roller body; with the structure, the injection amount of hot oil is only required to ensure that the storage part is filled, the lower roller body is not required to be entirely filled with the hot oil, the investment cost of the hot oil is reduced, the overall weight of the lower roller body is reduced, the lower roller body is easier to rotate, the power consumption for driving the lower roller body to rotate is lower, and the energy is saved; furthermore, hot oil is not directly outwards discharged by storage piece, but flows to the roll body lower part back along the roll body inner wall through the oil leak clearance, outwards discharges again, so hot oil that leaves along the clearance can carry out preheating treatment to the whole surface of roll body, guarantee that the surface of each position of roll body all has certain temperature after rotating supreme position, thereby can be rapid heat the steel sheet, avoid appearing the condition that hot oil heat is used for heating the roll body, improve the utilization ratio of heat energy.

The second heat insulation component comprises a heat insulation cover arranged outside the roller body in a covering mode, heat insulation cotton arranged in the heat insulation cover and a position adjusting structure used for adjusting the relative position between the heat insulation cover and the roller body, and the upper surfaces of the heat insulation cover and the heat insulation cotton are both of an opening structure; the upper parts of the encloser and the heat insulation layer are provided with openings, so that the upper part of the lower roller body is directly exposed and contacted with the steel plate to directly and well heat the steel plate; after the upper part is removed, the rest parts of the lower roller body are in contact with the heat insulation layer, so that the condition that the surface of the lower roller body is cooled after being heated by hot oil is effectively avoided, and the heat energy utilization rate is improved; the position of the heat insulation cover can be adjusted through the position adjusting structure, when the equipment stops working, the opening of the heat insulation cover faces the side part through the rotatable heat insulation cover, the lower roller body is guaranteed not to have a part directly exposed outside, the possibility that workers are accidentally injured is reduced, and potential safety hazards are reduced.

The positioning structure comprises an arc-shaped convex part arranged on the oil outlet end cover, an arc-shaped channel arranged on the arc-shaped convex part and a positioning block arranged on the temperature insulation cover, the positioning block is of an L-shaped structure, one end of the positioning block is connected with the temperature insulation cover, the other end of the positioning block can move in a reciprocating manner and penetrates through the arc-shaped through groove, and a rubber layer is fixedly connected to the inner wall of one end of the arc-shaped through groove; when the heat insulation cover rotates, the positioning block moves along the arc-shaped through groove, so that the motion track of the heat insulation cover is effectively limited, and the position deviation of the heat insulation cover is avoided; a rubber layer is arranged at one end of the arc-shaped through groove, so that the positioning block is clamped at the position when moving to the position, the position of the heat insulation cover is further positioned, the heat insulation cover is guaranteed to be limited at the position of the opening facing the side part, and the heat insulation cover is prevented from continuously moving; preferably, after the position adjustment of the heat insulation covers on the two lower roller bodies is finished, the openings on the heat insulation covers are arranged opposite to each other.

The oil outlet end cover is connected with the fixed plate through screws, and the support frame is connected with the open slot through screws; under this kind of structure, fix the position of the end cover that produces oil, avoid the end cover that produces oil to take place to rotate under the drive of roll body down to guarantee that the oil pipe is the setting down all the time, avoid the winding condition to appear in the oil pipe, reduce equipment failure rate.

The driving part comprises a driving part, an output gear arranged on an output shaft of the driving part, a driving gear, a first transmission gear, a second transmission gear and a driven gear, the driving gear is fixedly sleeved on a connecting shaft on one lower roller body, the driven gear is fixedly sleeved on a connecting shaft on the other lower roller body, the first transmission gear is rotatably arranged on the rack, one side of the first transmission gear is meshed with the output gear, and the other side of the first transmission gear is meshed with the driven gear; the second transmission gear is fixedly sleeved on the upper roller piece and is meshed with the driving gear; one driving part is adopted to drive a plurality of roller bodies, so that the energy consumption is low; and the synchronous rotation of the upper roller body and the lower roller body is ensured through transmission matching, the fault is not easy to occur in the plate bending process, the upper roller body and the lower roller body are synchronously started and stopped, the bending degree of the barrel body is more accurate, and the manufactured barrel body is high in quality.

The upper roller piece and the lower roller piece are respectively provided with the heating parts, so that the steel plate always has a certain temperature, the plate bending operation difficulty is reduced, and the plate bending time is shortened; because the heat insulation parts are respectively arranged outside the upper roller body and the lower roller body, the heat loss of the upper roller body and the lower roller body is effectively avoided, and the energy consumption is reduced; secondly, still avoided the possibility of scald, the work factor of safety is high.

Drawings

FIG. 1 is a first schematic structural diagram of a plate bending machine according to the present invention.

FIG. 2 is a second schematic structural view of a plate bending machine according to the present invention.

Fig. 3 is a side view of fig. 1.

Fig. 4 is a cross-sectional view taken along line B-B of fig. 3.

Fig. 5 is a cross-sectional view taken along line D-D of fig. 3.

Fig. 6 is a partially enlarged view one of fig. 5.

Fig. 7 is a second partial enlarged view of fig. 5.

Fig. 8 is a schematic sectional view of the lower roller body according to the present invention.

Fig. 9 is a partially enlarged view of fig. 1.

Fig. 10 is a front view of fig. 1.

Fig. 11 is a sectional view taken along line E-E of fig. 10.

Detailed Description

A cooler processing technology based on energy conservation and environmental protection specifically relates to a cooler barrel processing technology, which comprises the following steps:

a. bending a steel plate by a plate bending machine to form a cylinder;

as shown in fig. 1 to 11, the plate bending machine in the step a includes a frame 1 made of metal, an upper roller 2 disposed on the frame, two lower rollers 3 disposed on the frame, a driving member for driving the upper and lower rollers to rotate synchronously, a first heating member for heating the upper roller 2, a first heat insulating member for insulating heat of the upper roller 2, a second heating member for heating the lower roller 3, and a second heat insulating member for insulating heat of the lower roller 3; in the process of bending the steel plate by the plate bending machine, the steel plate moves left and right in a reciprocating manner in the gap between the upper roller body and the lower roller body and finally is completely in a cylindrical shape, and the specific reciprocating movement time and the movement process are the prior art and are not repeated; in the process of bending the steel plate, the first heating component continuously heats the upper roller piece 2, and the second heating component continuously heats the lower roller piece 3; wherein, the upper and lower roller pieces are made of metal; specifically, the first heating component comprises an annular accommodating cavity 41 arranged inside the upper roller component, an oil inlet channel 42 arranged at one end of the upper roller component, an oil outlet channel 43 arranged at the other end of the upper roller component, an oil inlet joint 44 connected with the oil inlet channel, an oil outlet joint 45 connected with the oil outlet channel, a first oil guide channel 46 arranged on the upper roller component and used for communicating the oil inlet channel with the annular accommodating cavity, and a second oil guide channel 47 used for communicating the oil outlet channel with the annular accommodating cavity; the oil inlet channel 42 and the oil outlet channel 43 are cylindrical structures, the first oil guide channel 46 and the second oil guide channel 47 are a plurality of through holes which are uniformly distributed along the inner part of the upper roller body at intervals, and each through hole is connected with the annular accommodating cavity; the oil inlet joint 44 is a cylinder made of metal, the oil inlet joint 44 is connected with an external oil pump through a hose, the oil pump is connected with an external oil storage tank, a heating pipe is arranged in the oil storage tank, so that oil in the oil storage tank can be heated, and the oil can be pumped into the oil inlet joint 44 through the oil pump; the oil inlet joint 44 is also a metal cylinder, and is also connected with the oil storage tank through a hose, so that the oil in the annular accommodating cavity can be circulated; preferably, two L-shaped fixing frames 11 made of metal are arranged on the frame 1, the oil inlet joint 44 and the oil outlet joint 45 are respectively arranged on the two fixing frames 11 in a penetrating manner, and the oil inlet joint 44 and the oil outlet joint 45 are respectively in rotation stopping fit with the fixing frames 11; specifically, a through hole is formed in the fixing frame, a strip-shaped rotation stopping convex part is arranged on the inner wall of the through hole, and the oil inlet connector 44 and the oil outlet connector 45 are respectively provided with a rotation stopping groove for inserting the rotation stopping convex part.

The first heat insulation component comprises a housing 51 covered outside the upper roll piece and a heat insulation layer 52 arranged in the housing, the lower parts of the housing 51 and the heat insulation layer 52 are both provided with openings, and at least part of the lower part of the upper roll body 2 extends out of the openings; wherein the cover shell is made of glass fiber reinforced plastic, and the heat insulation layer is heat insulation cotton; specifically, the operation of the first heating member to continuously heat the upper roller member 2 includes the steps of: hot oil is pumped into the oil inlet joint 44, flows through the oil guide channel and then flows into the annular accommodating cavity, redundant oil is conveyed outwards from the oil outlet channel 43, and hot oil circulation is formed in the upper roller body; in the circulation process, the upper roller body 2 is driven by the driving part to rotate, and the hot oil in the annular accommodating cavity 41 stays at the lowest position of the upper roller body 2 under the action of gravity to heat the whole surface of the upper roller body 2.

The lower roller body 3 comprises a hollow roller body 31, an opening 32 arranged at one end of the roller body, an end cover 33 fixedly connected with the opening in a welding manner, a driving shaft 34 arranged on the end cover, a plurality of strip-shaped oil outlet grooves 35 arranged at the other end of the roller body and a shaft body 36, wherein the plurality of strip-shaped oil outlet grooves 35 are arranged on the side wall of the end cover and are uniformly distributed at intervals along the circumferential direction of the end cover; further, the driving shaft 34 and the shaft body 36 are respectively provided with a through groove 361.

The second heating part comprises a hot oil storage part 61 arranged in the roller body, a storage groove 62 which is arranged on the hot oil storage part and has an opening at the upper part, an oil leakage gap 63 formed between the upper part of the hot oil storage part and the inner wall of the roller body, connecting shafts 64 fixedly arranged at the left end and the right end of the hot oil storage part, an oil outlet end cover 65 covering the end of the roller body, which is provided with an oil outlet groove, an oil outlet pipe 66 arranged on the oil outlet end cover, an oil inlet groove 67 arranged on one of the connecting shafts and an oil inlet pipe 68 arranged in the oil inlet groove; the cross section of the hot oil storage part 61 is in a cam-like structure, and the hot oil storage part 61 is made of metal, so that the heat conduction effect is good; the inner surface of the oil outlet end cover is in sealing fit with the outer surface of the roller body; this hot oil storage piece 61 upper portion edge is preferred fillet structure setting, guarantees not to produce too big frictional force between hot oil storage piece 61 and the roll body internal surface, and the size of oil leak clearance 63 is also less, and hot oil storage piece 61 can not be rapid by oil leak clearance 63 department smooth flow, guarantees that the oil in the hot oil storage piece 61 slowly overflows for following oil leak clearance 63, has guaranteed to be full of oily state in the hot oil storage piece 61 all the time, guarantees that the upper portion inner wall of roll body contacts with hot oil completely.

The connecting shaft 64 penetrates through the through groove 361, and the outer end of the connecting shaft penetrates out of the outer end of the through groove 361; preferably, a support frame 12 is arranged on the frame 1, and the outer end of the connecting shaft is fixedly connected with the support frame through a screw; the oil inlet pipe 68 is connected with an external oil pump through a hose, the oil pump is connected with an external oil storage tank, a heating pipe is arranged in the oil storage tank, so that oil in the oil storage tank can be heated, and the oil is pumped into the oil inlet pipe 68 through the oil pump; the oil outlet pipe 66 is also connected with an oil storage tank through a hose, so that the oil in the annular accommodating cavity can be circulated; specifically, the operation of the second heating member to continuously heat the lower roller 3 includes the following steps: hot oil is pumped into the hot oil storage part 61 through the oil inlet pipe 68 and the oil inlet groove 67 by the pump, after the storage groove 62 is filled, the hot oil flows out from the oil leakage gap 63 and flows downwards along the inner surface of the roller body to the lowest position of the lower roller body 3, then the hot oil flows out from the oil outlet groove 35 to the oil outlet end cover 65 and is discharged out through the oil outlet pipe 66, and the discharged oil is heated and then enters from the oil inlet pipe 67 again to circularly heat the lower roller body 3.

Further, the second heat insulation component comprises a heat insulation cover 71 arranged outside the roller body, heat insulation cotton 72 arranged in the heat insulation cover and a position adjusting structure used for adjusting the relative position between the heat insulation cover and the roller body, the upper surfaces of the heat insulation cover 71 and the heat insulation cotton 72 are both of an open structure, the heat insulation cover 71 is made of glass fiber reinforced plastics, and the heat insulation cotton 72 is heat insulation cotton.

The positioning structures are arranged into 2 groups, each group of positioning structures comprises an arc-shaped convex part 81, an arc-shaped channel 82 arranged on the arc-shaped convex part and a positioning block 83 arranged on the heat insulation cover, the arc-shaped convex part 81 is formed by directly extending the side wall of the oil outlet end cover outwards, and the positioning block 83 is made of metal and is fixedly connected to the outer surface of the heat insulation cover in a welding manner; furthermore, the positioning block 83 is of an L-shaped structure, one end of the positioning block 83 is connected with the heat insulation cover 71, and the other end of the positioning block 83 is inserted into the arc-shaped through groove 82 in a reciprocating manner; preferably, the inner wall of one end of the arc-shaped through groove 82 is adhesively connected with a rubber layer 821, so that the size of the arc-shaped through groove 82 at the end part is reduced.

An open slot 13 is formed in the frame 1, and a positioning part matched with the oil outlet end cover is arranged in the open slot 13 so as to ensure that the oil outlet end cover cannot rotate; the positioning components are arranged into two groups, each group of positioning components comprises an L-shaped frame body 141, an arc-shaped carriage 142 fixedly arranged on the frame body 141 and a fixing plate 143 arranged on the side part of the arc-shaped carriage, the oil outlet end cover 65 is connected with the fixing plate 143 through screws, and the frame body 141 is connected with the open slot 13 through screws.

The driving part comprises a driving part 91, an output gear 92 arranged on an output shaft of the driving part, a driving gear 93, a first transmission gear 94, a second transmission gear 95 and a driven gear 96, the driving gear 93 is fixedly sleeved on a connecting shaft on one of the lower roller bodies 3, the driven gear 96 is fixedly sleeved on a connecting shaft on the other lower roller body 3, the first transmission gear 94 is rotatably arranged on the rack 1, one side of the first transmission gear is meshed with the output gear 92, and the other side of the first transmission gear is meshed with the driven gear 96; a second transmission gear 95 is fixedly sleeved on the upper roller piece and meshed with the driving gear 93; the driving member is a motor, and the output gear 92, the driving gear 93, the first transmission gear 94, the second transmission gear 95 and the driven gear 96 are all commercially available metal gears.

Claims

1. The utility model provides a cooler processing technology based on energy-concerving and environment-protective, specifically is the processing technology of cooler barrel, its characterized in that: the method comprises the following steps:

bending a steel plate by a plate bending machine to form a cylinder;

welding the longitudinal seam on the cylinder obtained in the step a by a welding gun;

b, hoisting the welded cylinders in the step b to a metal support frame through a hoisting arm, wherein the number of the cylinders is 2, and the two cylinders are arranged side by side; then, welding the circular seam at the joint of the two cylinders by adopting welding equipment to obtain a cylinder body;

the plate bending machine in the step a comprises a rack (1), an upper roller (2) arranged on the rack, two lower rollers (3) arranged on the rack, a driving part for driving the upper roller and the lower roller to synchronously rotate, a first heating part for heating the upper roller (2), a first heat insulation part for preserving and insulating heat of the upper roller (2), a second heating part for heating the lower roller (3) and a second heat insulation part for preserving and insulating heat of the lower roller (3); in the process of bending the steel plate by the plate bending machine, the steel plate moves back and forth through a gap between the upper roller body and the lower roller body, the first heating component continuously heats the upper roller piece (2), and the second heating component continuously heats the lower roller piece (3);

the first heating part comprises an annular accommodating cavity (41) arranged in the upper roller part, an oil inlet passage (42) arranged at one end of the upper roller part, an oil outlet passage (43) arranged at the other end of the upper roller part, an oil inlet joint (44) connected with the oil inlet passage, an oil outlet joint (45) connected with the oil outlet passage, a first oil guide passage (46) arranged on the upper roller body and used for communicating the oil inlet passage with the annular accommodating cavity, and a second oil guide passage (47) used for communicating the oil outlet passage with the annular accommodating cavity;

the first heat insulation component comprises a housing (51) covered outside the upper roll piece and a heat insulation layer (52) arranged in the housing, the lower parts of the housing (51) and the heat insulation layer (52) are both provided with openings, and at least part of the lower part of the upper roll body (2) extends out of the openings; the frame (1) is provided with two fixing frames (11), the oil inlet joint (44) and the oil outlet joint (45) are respectively arranged on the two fixing frames (11) in a penetrating manner, and the oil inlet joint (44) and the oil outlet joint (45) are respectively matched with the fixing frames (11) in a rotation stopping manner; the operation that the first heating component continuously heats the upper roller (2) comprises the following steps: hot oil is pumped into the oil inlet joint (44), flows through the oil guide channel and then flows into the annular accommodating cavity, redundant oil is conveyed outwards from the oil outlet channel (43), and hot oil circulation is formed in the upper roller body; in the circulation process, the upper roller body (2) is driven by the driving part to rotate, hot oil in the annular accommodating cavity (41) stays at the lowest position of the upper roller body (2) under the action of gravity, and the whole surface of the upper roller body (2) is heated;

the lower roller body (3) comprises a hollow roller body (31), an opening (32) arranged at one end of the roller body, an end cover (33) fixedly connected with the opening in a welding mode, a driving shaft (34) arranged on the end cover, a plurality of strip-shaped oil outlet grooves (35) arranged at the other end of the roller body and a shaft body (36), wherein through grooves (361) are formed in the driving shaft (34) and the shaft body (36) respectively;

the second heating part comprises a hot oil storage part (61) arranged in the roller body, a storage groove (62) which is arranged on the hot oil storage part and is provided with an opening at the upper part, an oil leakage gap (63) formed between the upper part of the hot oil storage part and the inner wall of the roller body, connecting shafts (64) fixedly arranged at the left end and the right end of the hot oil storage part, an oil outlet end cover (65) covering one end of the roller body, which is provided with an oil outlet groove, an oil outlet pipe (66) arranged on the oil outlet end cover, an oil inlet groove (67) arranged on one of the connecting shafts and an oil inlet pipe (68) arranged in the oil inlet; the connecting shaft (64) penetrates through the through groove (361), the outer end of the connecting shaft penetrates out of the outer end of the through groove (361), a support frame (12) fixedly connected with the outer end of the connecting shaft is arranged on the rack (1), and the inner surface of the oil outlet end cover is in sealing fit with the outer surface of the roller body; the operation that the second heating component continuously heats the lower roller piece (3) comprises the following steps: hot oil is pumped into the hot oil storage part (61) by a pump through an oil inlet pipe (68) and an oil inlet groove (67), after the storage groove (62) is filled up, the hot oil flows out from the oil leakage gap (63) and flows downwards along the inner surface of the roller body to the lowest position of the lower roller body (3), then the hot oil flows out from the oil outlet groove (35) to the oil outlet end cover (65), and is discharged outwards through the oil outlet pipe (66), the discharged oil is heated and then enters the lower roller body (3) through the oil inlet pipe (67), and the lower roller body (3) is circularly heated;

the second heat insulation component comprises a heat insulation cover (71) covered outside the roller body, heat insulation cotton (72) arranged in the heat insulation cover and a position adjusting structure used for adjusting the relative position between the heat insulation cover and the roller body, and the upper surfaces of the heat insulation cover (71) and the heat insulation cotton (72) are both of an opening structure;

be equipped with open slot (13) on frame (1), be equipped with in this open slot (13) with oil outlet end cover matched with locating component, this locating component sets up to two sets of, and locating component includes the support body (141) of L type, sets firmly arc planker (142) on this support body (141) and locates fixed plate (143) of this arc planker lateral part, oil outlet end cover (65) link to each other with this fixed plate (143) through the screw, this support body (141) pass through the screw with open slot (13) link to each other.

2. The energy-saving and environment-friendly cooler machining process based on the claim 1 is characterized in that: the positioning structure comprises an arc-shaped convex part (81) arranged on the oil outlet end cover, an arc-shaped channel (82) arranged on the arc-shaped convex part and a positioning block (83) arranged on the heat insulation cover, wherein the positioning block (83) is of an L-shaped structure, one end of the positioning block (83) is connected with the heat insulation cover (71), the other end of the positioning block can move in a reciprocating manner and is arranged in the arc-shaped through groove (82), and a rubber layer (821) is fixedly connected to the inner wall of one end of the arc-shaped through groove (82).