CN212838686U - Improved generation wear-resisting high temperature resistant cylinder - Google Patents

Abstract

The utility model provides an improved generation wear-resisting high temperature resistant cylinder, including front cover, back cover, piston rod, movable piston, dust ring, oil-retaining bearing, nanometer heat dissipation coating layer, filling device, heat conduction copper plate, positioning jack, just tear heat dissipation frame structure open, left side business turn over gas pocket and right side business turn over gas pocket, front cover and back cover welding set up; the piston rod penetrates through the front cover and is inserted into the inner side of the rear cover; the movable piston is connected to the right side of the outer portion of the piston rod in an adhesive mode. The heat conducting copper rods of the utility model are respectively welded at the lower part of the transverse heat radiating plate and run through the positioning jacks to be contacted with the heat conducting copper plate, thereby being beneficial to increasing the outward conduction of the heat generated on the front cover and the rear cover when in use, and further improving the heat radiating effect; connecting bolt runs through the side mounting panel respectively with the front and back both sides of protecgulum and the front and back both sides threaded connection of back lid, is favorable to conveniently unscrewing connecting bolt according to the demand when using to the convenience is dismantled horizontal heating panel.

Description

Improved generation wear-resisting high temperature resistant cylinder

Technical Field

The utility model belongs to the technical field of the cylinder, especially, relate to a wear-resisting high temperature resistant cylinder of improved generation.

Background

The cylinder is a cylindrical metal part for guiding the piston to perform linear reciprocating motion in the cylinder, however, the existing cylinder has relatively poor functions of wear resistance and high temperature resistance, so that the working period of the cylinder is short, and the economic cost is high.

But current cylinder has the radiating effect to the cylinder outside poor, inconvenient dismantles the heat dissipation frame and inconvenient adds the problem of fluid to the activity department.

Therefore, the invention is necessary to develop an improved wear-resistant and high-temperature-resistant cylinder.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a wear-resisting high temperature resistant cylinder of improved generation to it is poor to the radiating effect in the cylinder outside to solve current cylinder, inconvenient dismantles the problem that adds fluid with inconvenient to the activity department to the heat dissipation frame. An improved wear-resistant high-temperature-resistant cylinder comprises a front cover, a rear cover, a piston rod, a movable piston, a dustproof ring, an oil-containing bearing, a nano heat dissipation coating layer, an oiling device, a heat conduction copper plate, a positioning jack, a conveniently-disassembled heat dissipation frame structure, a left air inlet and outlet hole and a right air inlet and outlet hole, wherein the front cover and the rear cover are welded; the piston rod penetrates through the front cover and is inserted into the inner side of the rear cover; the movable piston is connected to the right side of the outer part of the piston rod in an adhesive manner and is simultaneously inserted into the inner side of the rear cover; the dustproof ring and the oil-containing bearing are respectively embedded in the left side of the front cover and are respectively sleeved on the outer side of the piston rod; the nanometer heat dissipation coating layer is embedded in the periphery of the inner walls of the front cover and the rear cover; the oiling device is arranged on the left upper side of the front cover; the positioning jacks are respectively arranged at the upper side and the lower side of the front cover and the rear cover and correspond to the heat-conducting copper plate; the conveniently-disassembled heat dissipation frame structure is arranged on the upper side and the lower side of the front cover and the rear cover; the left air inlet and outlet hole is inserted in the left side of the upper part of the front cover; the right air inlet and outlet hole is inserted in the right side of the upper part of the rear cover; the conveniently-disassembled heat dissipation frame structure comprises a transverse heat dissipation plate, longitudinal heat dissipation fins, side mounting plates, connecting bolts and heat conduction copper rods, wherein the longitudinal heat dissipation fins are respectively welded on the upper sides of the transverse heat dissipation plates; the side mounting plates are welded at the front end and the rear end of the left side and the right side of the lower part of the transverse heat dissipation plate.

Preferably, the oiling device comprises an oil storage frame, an inlet pipe, a sealing cover, an outlet pipe and a one-way valve, wherein the oil storage frame is mounted on the left upper side of the front cover through a screw; the lead-in pipe is inserted in the middle upper part of the oil storage frame; the sealing cover is in threaded connection with the upper side of the introducing pipe.

Preferably, the heat conducting copper rods are respectively welded at the lower parts of the transverse heat dissipation plates and penetrate through the positioning jacks to be in contact with the heat conducting copper plates.

Preferably, the connecting bolt penetrates through the side mounting plate and is in threaded connection with the front side and the rear side of the front cover and the front side and the rear side of the rear cover respectively.

Preferably, the delivery pipe is embedded in the upper left side of the front cover, and the upper end and the lower end of the delivery pipe are respectively communicated with the lower part of the oil storage frame and the upper part of the oil-containing bearing.

Preferably, the heat conducting copper plate is embedded in the upper part and the lower part of the front cover and the rear cover respectively.

Preferably, the left side of oil storage frame still be provided with circular ring and pellosil, circular ring glue connect in the left side of oil storage frame, pellosil glue connect in the inboard of circular ring.

Preferably, the check valve is respectively glued to the lower part of the inlet pipe and the upper part of the outlet pipe.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model discloses in, heat conduction copper pole weld respectively in the lower part of horizontal heating panel to run through location jack and heat conduction copper contact, be favorable to increasing the heat of the production that protecgulum and back were covered when using and outwards derive, thereby improve the radiating effect.

The utility model discloses in, connecting bolt run through the side mounting panel respectively with the front and back both sides of protecgulum and the front and back both sides threaded connection of back lid, be favorable to when using conveniently unscrewing connecting bolt according to the demand to the convenience is dismantled horizontal heating panel.

The utility model discloses in, delivery tube embedding in the upper left side of protecgulum, both ends switch-on with the lower part of oil storage frame and the upper portion of oiliness bearing respectively about the while, be favorable to adding fluid in the oiliness bearing convenient to when using to reduce the degree of wear to the oiliness bearing.

The utility model discloses in, the heat conduction copper imbed respectively in the upper and lower two of protecgulum and hou gai, be favorable to conveniently upwards deriving the heat on the nanometer heat dissipation dope layer when using.

The utility model discloses in, the left side of oil storage frame still be provided with circular ring and pellosil, circular ring glue connect in the left side of oil storage frame, the pellosil glue connect in the inboard of circular ring, be favorable to conveniently extrudeing the fluid in the oil storage frame downwards when pressing the pellosil to refuel to oiliness bearing with the contact tube.

The utility model discloses in, the check valve splice respectively in the lower part of induction tube and the upper portion of contact tube, be favorable to avoiding the fluid backward flow when using.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

fig. 2 is a schematic structural diagram of the refueling device of the present invention;

fig. 3 is a schematic structural view of the heat dissipating frame structure convenient to disassemble.

In the figure:

1. a front cover; 2. a rear cover; 3. a piston rod; 4. a movable piston; 5. a dust ring; 6. an oil-retaining bearing; 7. a nano heat dissipation coating layer; 8. an oiling device; 81. an oil storage frame; 811. a circular ring; 812. a silicone membrane; 82. an introducing pipe; 83. a sealing cover; 84. a delivery pipe; 85. a one-way valve; 9. a heat-conducting copper plate; 10. positioning the jack; 11. the heat dissipation frame structure is convenient to disassemble; 111. a transverse heat dissipation plate; 112. a longitudinal heat sink; 113. a side mounting plate; 114. a connecting bolt; 115. A thermally conductive copper rod; 12. the left side is provided with an air inlet and an air outlet; 13. and the right side is provided with an air inlet and an air outlet.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example (b):

as shown in figures 1 and 3

The utility model provides an improved generation wear-resisting high temperature resistant cylinder, including protecgulum 1, back lid 2, piston rod 3, movable piston 4, dust ring 5, oiliness bearing 6, nanometer heat dissipation coating layer 7, filling device 8, heat conduction copper 9, location jack 10, just tear heat dissipation frame structure 11 open, left side business turn over gas pocket 12 and right side business turn over gas pocket 13, protecgulum 1 and back lid 2 welding set up; the piston rod 3 penetrates through the front cover 1 and is inserted into the inner side of the rear cover 2; the movable piston 4 is glued on the right side outside the piston rod 3 and is simultaneously spliced on the inner side of the rear cover 2; the dustproof ring 5 and the oil-containing bearing 6 are respectively embedded in the left side of the front cover 1 and are respectively sleeved on the outer side of the piston rod 3; the nanometer heat dissipation coating layer 7 is embedded in the periphery of the inner walls of the front cover 1 and the rear cover 2; the oiling device 8 is arranged at the left upper side of the front cover 1; the positioning jacks 10 are respectively arranged at the upper side and the lower side of the front cover 1 and the rear cover 2 and correspond to the heat-conducting copper plate 9; the conveniently-disassembled heat dissipation frame structure 11 is arranged on the upper side and the lower side of the front cover 1 and the rear cover 2; the left air inlet and outlet hole 12 is inserted at the left side of the upper part of the front cover 1; the right air inlet and outlet hole 13 is inserted at the right side of the upper part of the rear cover 2; the heat conducting copper plates 9 are respectively embedded in the upper part and the lower part of the front cover 1 and the rear cover 2, so that heat on the nanometer heat dissipation coating layer 7 can be conveniently led out upwards when the heat conducting copper plates are used; the detachable heat dissipation frame structure 11 comprises a transverse heat dissipation plate 111, longitudinal heat dissipation fins 112, side mounting plates 113, connecting bolts 114 and heat conducting copper rods 115, wherein the longitudinal heat dissipation fins 112 are respectively welded on the upper side of the transverse heat dissipation plate 111; the side mounting plates 113 are welded at the front and rear ends of the left and right sides of the lower part of the transverse heat dissipation plate 111; heat conduction copper pole 115 weld respectively in the lower part of horizontal heating panel 111 to run through location jack 10 and the contact of heat conduction copper 9, can increase the heat of production on protecgulum 1 and the back lid 2 when using and outwards derive, thereby improve the radiating effect, connecting bolt 114 run through side mounting panel 113 respectively with protecgulum 1 around both sides and back lid 2 around both sides threaded connection, just unscrew connecting bolt 114 according to the demand when using, thereby conveniently dismantle horizontal heating panel 111.

As shown in fig. 2, in the above embodiment, specifically, the refueling device 8 includes an oil storage frame 81, an inlet pipe 82, a sealing cover 83, an outlet pipe 84 and a one-way valve 85, and the oil storage frame 81 is screwed on the left upper side of the front cover 1; the lead-in pipe 82 is inserted in the middle upper part of the oil storage frame 81; the sealing cover 83 is connected with the upper side of the leading-in pipe 82 in a threaded mode; the eduction tube 84 embedding in the upper left side of protecgulum 1, both ends switch on with the lower part of oil storage frame 81 and the upper portion of oil bearing 6 respectively about simultaneously, conveniently add fluid in oil bearing 6 when using to reduce the degree of wear to oil bearing 6, the left side of oil storage frame 81 still be provided with circular ring 811 and pellosil 812, circular ring 811 splice the left side at oil storage frame 81, pellosil 812 splice the inboard at circular ring 811, conveniently extrude the fluid in the oil storage frame 81 downwards when pressing pellosil 812, so that refuel oil bearing 6 with eduction tube 84, check valve 85 splice respectively in the lower part of induction tube 82 and the upper portion of eduction tube 84, can avoid fluid backward flow when using.

Principle of operation

The utility model discloses in the course of the work, utilize nanometer heat dissipation dope layer 7 to the heat that the friction of movable piston 4 produced to transmit on heat conduction copper 9 during the use, and through heat conduction copper pole 115 with heat transmission to horizontal heating panel 111 on, and through vertical fin 112 outside scattered, screw down sealed lid 83 according to the demand, press the fluid of pellosil 812 in with oil storage frame 81 and pour into through contact tube 84 and heat in the oiliness bearing 6, add to finish the back and screw up sealed lid 83 at induction pipe 82 upside.

Utilize technical scheme, or technical personnel in the field are in the utility model discloses under technical scheme's the inspiration, design similar technical scheme, and reach above-mentioned technological effect, all fall into the utility model discloses a protection scope.

Claims (8)

1. The improved wear-resistant and high-temperature-resistant cylinder is characterized by comprising a front cover (1), a rear cover (2), a piston rod (3), a movable piston (4), a dust ring (5), an oil-containing bearing (6), a nanometer heat dissipation coating layer (7), an oiling device (8), a heat conduction copper plate (9), a positioning jack (10), a conveniently-disassembled heat dissipation frame structure (11), a left air inlet/outlet hole (12) and a right air inlet/outlet hole (13), wherein the front cover (1) and the rear cover (2) are welded; the piston rod (3) penetrates through the front cover (1) and is inserted into the inner side of the rear cover (2); the movable piston (4) is glued to the right side of the outer part of the piston rod (3) and is simultaneously spliced to the inner side of the rear cover (2); the dustproof ring (5) and the oil-containing bearing (6) are respectively embedded into the left side of the front cover (1) and are respectively sleeved on the outer side of the piston rod (3); the nanometer heat dissipation coating layer (7) is embedded in the periphery of the inner walls of the front cover (1) and the rear cover (2); the oiling device (8) is arranged on the left upper side of the front cover (1); the positioning insertion holes (10) are respectively arranged on the upper side and the lower side of the front cover (1) and the rear cover (2) and correspond to the heat-conducting copper plate (9); the conveniently-disassembled heat dissipation frame structure (11) is arranged on the upper side and the lower side of the front cover (1) and the rear cover (2); the left air inlet and outlet hole (12) is inserted in the left side of the upper part of the front cover (1); the right air inlet and outlet hole (13) is inserted at the right side of the upper part of the rear cover (2); the conveniently-disassembled heat dissipation frame structure (11) comprises a transverse heat dissipation plate (111), longitudinal heat dissipation fins (112), side mounting plates (113), connecting bolts (114) and heat conduction copper rods (115), wherein the longitudinal heat dissipation fins (112) are respectively welded on the upper side of the transverse heat dissipation plate (111); the side mounting plates (113) are welded at the front and rear ends of the left and right sides of the lower part of the transverse heat dissipation plate (111).

2. The improved cylinder of claim 1, wherein the oil filling device (8) comprises an oil storage frame (81), an inlet pipe (82), a sealing cover (83), an outlet pipe (84) and a one-way valve (85), the oil storage frame (81) is mounted on the left upper side of the front cover (1) in a screw mode; the lead-in pipe (82) is inserted in the middle upper part of the oil storage frame (81); the sealing cover (83) is in threaded connection with the upper side of the introducing pipe (82).

3. The improved cylinder of claim 1, wherein the heat conducting copper rods (115) are welded to the lower parts of the transverse heat dissipating plates (111) respectively and penetrate through the positioning insertion holes (10) to contact the heat conducting copper plates (9).

4. The improved cylinder of claim 1, wherein the connecting bolts (114) penetrate through the side mounting plates (113) and are respectively in threaded connection with the front side and the rear side of the front cover (1) and the front side and the rear side of the rear cover (2).

5. The improved cylinder of claim 2, wherein the delivery pipe (84) is embedded in the upper left side of the front cover (1), and the upper and lower ends are respectively connected with the lower part of the oil storage frame (81) and the upper part of the oil-containing bearing (6).

6. The improved cylinder of claim 1, wherein the heat conducting copper plate (9) is embedded in the upper and lower parts of the front cover (1) and the rear cover (2), respectively.

7. The improved cylinder of claim 2, wherein the left side of the oil storage frame (81) is further provided with a circular ring (811) and a silicone membrane (812), the circular ring (811) is glued to the left side of the oil storage frame (81), and the silicone membrane (812) is glued to the inner side of the circular ring (811).

8. The improved cylinder of claim 2, wherein the check valve (85) is glued to the lower portion of the inlet pipe (82) and the upper portion of the outlet pipe (84), respectively.

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