CN209493759U - Go with each other all the time thermal-conducting oil drying cylinder - Google Patents

Abstract

The utility model relates to paper industries, belong to drying equipment.Including cylinder body inner cylinder, cylinder body outer cylinder, partition, Oil Guide chamber, oil inlet main shaft, oil outlet main shaft, outlet metal tube, transmission side spindle nose and fore side spindle nose.The thermal-conducting oil drying cylinder that goes with each other all the time integrally uses Steel material, has 20 to lead oil cavity channel and 20 metal tubes, for adjacent two passes by welding baffle interval, first axis and the second axial Oil Guide chamber end are closed；Conduction oil flows into left end from first axis Oil Guide chamber right end respectively and flows out, and flows into right end outflow from the second axial Oil Guide chamber left end, first axis Oil Guide chamber and the second axial Oil Guide chamber have 10 entrances and 10 outlets respectively.20 imports of Oil Guide chamber are directly connect with channel, and 20 outlets are connected to cylinder body inner cylinder and oil outlet main shaft by metal tube.The utility model has the advantages that making conduction oil convective flow in the thermal-conducting oil drying cylinder that goes with each other all the time, thermal-conducting oil drying cylinder surface temperature distribution is more uniform, reduces the temperature difference, improves the quality of paper.

Description

Go with each other all the time thermal-conducting oil drying cylinder

Technical field

The present invention relates to a kind of thermal-conducting oil drying cylinders more particularly to a kind of drying of paper making pulp to use thermal-conducting oil drying cylinder.

Background technique

Patent No. CN107217526A teaches a kind of steel welding drying cylinder of heat transfer oil, be conduction oil by with oil-feed tank The metal hose of connection keeps oil cylinder surface temperature distribution uniform in the intracavitary convective flow of Oil Guide, the paper quality got well, and saves Material reduces scattering and disappearing for heat, and the utilization rate of heat improves.But metal hose is crisscross in drying cylinder, manufacturing process is complicated And the unbalanced phenomenon of cylinder body is generated to the drying cylinder of rotation.The utility model has the advantages that the present invention is using the globality in channel instead of metal Hose improves the running stability of drying cylinder, and surface temperature of drier is made to be more evenly distributed.

Summary of the invention

The purpose of the present invention is being directly connected to realize conduction oil convective flow in rigid body by Oil Guide chamber and oil-feed tank, make Surface temperature of drier is evenly distributed.

The technical solution used integrally uses Steel material for drying cylinder, has 20 to lead oil cavity channel and 20 metal tubes, phase For adjacent two passes by welding baffle interval, first axis and the second axial Oil Guide chamber end are closed；Conduction oil respectively from First axis Oil Guide chamber right end flows into left end outflow, flows into right end outflow from the second axial Oil Guide chamber left end.

Oil inlet main shaft both ends connect oil-feed tank, and oil outlet main shaft is closed at one end, and the other end connects out oil groove, both ends into Oil, both ends are fuel-displaced.

Oil outlet main shaft is closed at one end, and the other end connects out oil groove, fuel-displaced direction by radial metal tube by cylinder body inner cylinder and The connection of oil outlet main shaft.

Conduction oil enters Oil Guide chamber from both ends and flows out from the metal tube at both ends, in the intracavitary convective flow of Oil Guide.

Oil Guide chamber or so distributes alternately ingate and outlet opening, can avoid left and right surface temperature difference caused by single entrance in this way Larger problem.

Conduction oil, which goes with each other all the time, further promotes thermal-conducting oil drying cylinder to the functions/drying of paper pulp.

Detailed description of the invention:

Fig. 1 is the thermal-conducting oil drying cylinder Oil Guide chamber circumference schematic diagram of the design；

Fig. 2 is thermal-conducting oil drying cylinder Oil Guide chamber entrance side view；

Fig. 3 is thermal-conducting oil drying cylinder surface view；

Fig. 4 is thermal-conducting oil drying cylinder view.

In attached drawing, 2,4, respectively first axis oil inlet and the second axial fuel inlet mouth；1,3, the respectively first radial gold Belong to pipe oil outlet and the second radial oil outlet；5,6 be respectively transmission side spindle nose and fore side spindle nose；7 be oil outlet main shaft；8 are Oil inlet main shaft；9,10 be respectively the second radial fuel-displaced metal tube and the first radial fuel-displaced metal tube；11,15 oil inlet main shafts two The oil-feed tank at end；12 be oil groove out；13 be first axis Oil Guide chamber；14 be the second axial Oil Guide chamber.

Specific embodiment:

It is further described in the following with reference to the drawings and specific embodiments.

The present invention such as Fig. 1 shown in 2,3,4, dries thermally conductive oil cylinder for a kind of paper grade pulp, there is bilateral to flow into bilateral stream Novel heat-conducting oil cylinder out, it is characterized in that: what conduction oil was connected from 5 transmission side spindle noses, 11 oil-feed tanks of inflow and with 11 oil-feed tanks 8 oil inlet main shafts and 15 oil-feed tanks being connected with 8 oil inlet main shaft right ends, are then flowed by 11 oil-feed tanks and 15 oil-feed tanks respectively Enter 13 first axis Oil Guide chambers and 14 second axial Oil Guide chambers, realizes convective flow, and by 13 first axis Oil Guide chamber left ends 10 first radial fuel-displaced metal tubes and 9 second radial fuel-displaced metal tubes of 14 second axial Oil Guide chamber ends flow into and fuel-displaced metal The 8 oil outlet main shafts that pipe is connected, the 12 fuel-displaced notches through connecting with 8 oil outlet main shafts flow out after flowing into 6 fore side spindle noses, together Shi Jinhang bilateral flows into and bilateral outflow, and surface temperature of drier is made to be evenly distributed.

Claims (3)

1. The thermal-conducting oil drying cylinder 1. one kind goes with each other all the time, including cylinder body inner cylinder, cylinder body outer cylinder, partition, Oil Guide chamber, oil inlet main shaft, go out Hydraulic fluid port main shaft, outlet metal tube, transmission side spindle nose and fore side spindle nose, it is characterized in that: the thermal-conducting oil drying cylinder that goes with each other all the time integrally is adopted With Steel material, there are 20 to lead oil cavity channel and 20 metal tubes, first axis Oil Guide chamber and the second axial Oil Guide chamber have respectively 10 entrances and 10 outlets.
2. 2. the thermal-conducting oil drying cylinder according to claim 1 that goes with each other all the time, it is characterised in that: the oil inlet main shaft both ends connect Oil groove is tapped into, oil outlet main shaft is closed at one end, and the other end connects out oil groove, both ends oil inlet, and both ends are fuel-displaced.
3. 3. the thermal-conducting oil drying cylinder according to claim 1 that goes with each other all the time, it is characterised in that: oil outlet main shaft is closed at one end, separately One end connects out oil groove, and fuel-displaced direction is connected cylinder body inner cylinder with oil outlet main shaft by metal tube.