CN201738301U - Force measuring tubular pile - Google Patents

Abstract

The utility model provides a force measuring tubular pile which comprises a cylindrical concrete tubular pile, a tapered pile tip and a load device. The tubular pile comprises an upper tubular pile, a lower tubular pile and a load device for connecting the upper tubular pile with the lower tubular pile or the tapered pile tip; the load device positioned between the upper tubular pile and the lower tubular pile comprises a top plate, a bottom plate and a support positioned between the top plate and the bottom plate; and an oil cylinder is in movable fit with an inner ring of the support. An oil inlet is arranged on the top of the oil cylinder and connected with a ground pump station by an oil pipe; a piston is arranged in the oil cylinder; a lower displacement base rod is arranged outside an inner loop of the support; a protecting pipe is pre-buried in a concrete loop of the upper tubular pile; a movable sleeve is inserted in the lower end of the lower displacement base rod of the protective pipe and connected with the lower displacement base rod; the upper end of the lower displacement base rod is connected with a lower displacement sensor platform and a lower displacement sensor positioned on the ground. The force measuring tubular pile can be used for construction simply and conveniently, and can measure force accurately.

Description

Force measurement pipe pile

Technical field

The utility model relates to pile foundation quality detection technique field in the civil engineering, is specifically related to a kind ofly can measure the stressed pile tube of pile body based on the self-balancing test philosophy.

Background technology

Along with the rise of highrise building, it is also increasing that static loading test is surveyed the bearing capacity tonnage, yet the counterforce device that uses in traditional method of testing is very heavy, wastes time and energy, and cost is also very high.Although various dynamic measuring methods are arranged in recent years, also need a large amount of sound data contrasts could improve its precision.

Stake end Loading Method is also more commonly used in recent years, and its maximum characteristics load at the bottom of being, and can directly record pile side resistance and end resistance, and experimental rig is simple, do not need anchoring pile and reaction frame, do not take the construction plant, expense relatively low (comparable conventional method saves 25%～75%).

The device of stake end Loading Method is mainly by a special hydraulic jack formula load case.The load case can design and make it especially according to different test pile types.Driven pile with the load case with the stake driven pile at the bottom of, castinplace pile then will sink to a hole after the welding of itself and reinforcing cage.Therefore, the load case belongs to disposable input device.The load case mainly is made up of piston, top cover, tank wall three parts, and has defeated pressure pipe, plug to stretch out the stake top.Be mounted with dial gauge on stake top and be used to observe the displacement that the downward displacement of piston and top cover make progress.During test, defeated pressure pipe to stake at the bottom of the load box cavity pressurize, the top cover of piston is slowly pushed open, pile side resistance that this moment is downward and the end resistance that makes progress play a role, counter-force each other, until both one of destroy.Load that records and displacement relation can draw simultaneously " pile side resistance and displacement relation figure " and " end resistance and displacement relation figure ".Stake end Loading Method is to determine bearing capacity of single pile according to the downward pile side resistance of being surveyed and the end resistance superposition that makes progress.During test, the load box cavity upwards pressure and must equal downward pressure, compare with traditional pile testing method, its gained rupture load (comprise pile body deadweight) be at least at the bottom of 2 times of the measured rupture load of Loading Method.Therefore as if the working load of the rupture load that produces with Loading Method at the bottom of the stake as stake, then stake has the resistance to compression safety factor greater than 2 at least.

But be subjected to external force outside easily damages or influences its certainty of measurement owing to displacement bar is exposed.Bottom offset base bar and bottom offset bar need installation at the scene, use cumbersome.In addition, the oil cylinder outer wall need weld and cause distortion, influences the relative motion and the certainty of measurement of oil cylinder and piston.Therefore, improve certainty of measurement, reduce difficulty of construction and become problem demanding prompt solution.

The utility model content

For solving the aforementioned problems in the prior, the purpose of this utility model provides a kind of force measurement pipe pile, can in prefabricated workshop, load means, displacement measurement bar and oil pipe be assembled, make that need not to carry out numerous and diverse work such as welding at the construction field (site) promptly can measure.

In order to achieve the above object, the technological means that the utility model adopts is: a kind of force measurement pipe pile, comprise cylindrical shape concrete pile tube, tapered pile point and load means, described pile tube comprises pile tube 100, following pile tube 300 and the load means 200 that connects pile tube 100 on this, following pile tube 300 or tapered pile point 310, load means 200 between last pile tube 100 and following pile tube 300 comprises top board 201, base plate 202 and the support 210 between top board 201 and base plate 202, in the interior annulus of described support 210 oil cylinder 220 is installed movingly; The top of oil cylinder 220 is provided with oil-in, and oil-in is connected with ground pump station by petroleum pipeline 106, and oil cylinder inside is provided with piston 230; Interior ring 213 arranged outside of support 210 have bottom offset base bar 204, pre-buried pillar 103 in the concrete ring of last pile tube 100, the lower end that movable sleeve is inserted in the bottom offset bar 104 in the pillar 103 is connected with bottom offset base bar 204, the upper end of bottom offset bar 104 is connected with the bottom offset sensor platform 123 that is positioned at ground, on the described bottom offset sensor senses applicator platform 123 bottom offset sensor 124 is installed.Described pile tube 100, following pile tube 300, the top board 201 of load means and the outside diameter of base plate 202 and support 210 gone up all equates; Last pile tube 100 is integrally welded with back, top board 201 location by last reference column 205, and following pile tube 300 is by reference column 206 is integrally welded with back, base plate 202 location down; The described center line of going up pile tube 100, following pile tube 300, top board 201, base plate 202, support 210 and oil cylinder 220 all overlaps with pile tube axis O-O.Described bottom offset base bar 204, pillar 103 and movable sleeve are inserted in the pillar 103 and the bottom offset bar 104 that is connected with bottom offset base bar 204 is two, and all are symmetrical in pile tube axis O-O; Welding bars epicoele 102 and extension bar cavity of resorption 108 are joined in pillar 103 two ends; Bottom offset base bar 204 lower ends firmly are connected with base plate 202 with screw thread, and latch 119 was connected with bottom offset bar 104 lower ends in extension bar cavity of resorption 108 under bottom offset base bar 204 upper ends were used; Bottom offset bar 104 upper ends are used latch 122 and are connected with bottom offset sensor platform 123 in extension bar epicoele 102, and bottom offset sensor platform 123 is connected with bottom offset sensor 124.The height of described oil cylinder is less than the height of support 210.The last ring 211 that described support 210 comprises interior ring 213, be welded as a whole with interior ring 213 tops, and the lower toroidal ring 212 that is welded as a whole of interior ring 213 bottoms and the radially equally distributed setting floor 214 that is welded as a whole with last ring 211, lower toroidal ring 212 and interior ring 213 external cylindrical surfaces.The described ring 211 of going up adopts the 207 fixing and firmly welding of first bolt with load means top board 201; Described lower toroidal ring 212 is fixed by second bolt 208 with load means base plate 202 and is connected in seam K place's spot welding.Described radially equally distributed setting floor 214 is an even numbered blocks, and the space that the external cylindrical surface of last ring 211, lower toroidal ring 212 and interior ring 213 is surrounded is divided into the even number fan section; In one group of non-conterminous fan section, arc side plate 215 and two adjacent setting floors 214, the external arc that goes up ring 211 and lower toroidal ring 212 cooperate and are welded as a whole; In another organized non-conterminous fan section, two bottom offset base bars 204 were symmetrical in pile tube axis O-O and are installed in this group fan section; Parallel and be positioned at the sallop screen 216 of ring 211 and lower toroidal ring 212 middles and two adjacent setting floors 214 and ring 213 external cylindrical surfaces and be welded as a whole, first bolt 207 or second bolt 208 that support 210 is connected with top board 201 or base plate 202 are positioned at this group fan section.Described setting floor 214 is 6,8,10 or 12.Described oil pipe 106 is seamless steel pipe or rubber oil hose.

Compared with prior art, the utlity model has following advantage:

1. bottom offset base bar is installed in the sealing fan section of support both sides, the movable insertion of the bottom offset bar that is connected with bottom offset base bar is embedded in the pillar of pile tube concrete ring, compare with exposed prior art scheme outside, bottom offset base bar and bottom offset bar all have safe and reliable protection, can not be subjected to external force and damage or influence its certainty of measurement; And can bottom offset base bar and bottom offset bar be installed in prefabricated workshop earlier, avoid constructing at the scene.Like this, mode that only need be by static pressure or hammering is the force measurement pipe pile that is pre-assembled at the scene, just can measure through the intermittent phase.

2. be different from the prior art scheme, the oil cylinder outer wall need weld the drawback that causes distortion, oil cylinder is installed in the interior annulus of very firm support movingly, all welding is all carried out in support and adjacent parts thereof, can not cause the oil cylinder distortion and influences the relative motion and the certainty of measurement of oil cylinder and piston.

3. go up pile tube, down the top board of pile tube, load means and the connection between base plate and the support select for use respectively reference column or bolt earlier the location fastening after welding again, guarantee accurate positioning, firm and reliable connection.

Description of drawings

Fig. 1 is the cross section view of the central axis O-O of process force measurement pipe pile;

Fig. 2 is along load means E-E footpath cross-sectional plan view to the midline;

Fig. 3 is for the central axis O-O through force measurement pipe pile, along the cross section view of B-B line among Fig. 2;

Fig. 4 is for the central axis O-O through force measurement pipe pile, along the cross section view of C-C line among Fig. 2;

Fig. 5 is the cross section view of the central axis O-O of process force measurement pipe pile when pile tube is the tapered pile point down.

The specific embodiment

Below in conjunction with accompanying drawing the utility model is described in detail.

As shown in Figure 1, the force measurement pipe pile that provides for the utility model is along the cross section view of axis O-O.Be connected by load means 200 between last pile tube 100 and the following pile tube 300.The two ends of last pile tube 100 and following pile tube 300 are respectively arranged with this area endless metal end plate commonly used.Load means 200 comprises top board 201, base plate 202 and the support 210 between top board 201 and base plate 202; In the interior ring 213 of support 210, oil cylinder 220 is installed movingly; The top of oil cylinder 220 is provided with oil-in, and oil-in is connected with ground pump station by petroleum pipeline 106, and oil cylinder inside is provided with piston 230; Interior ring 213 arranged outside of support 210 have bottom offset base bar 204, pre-buried pillar 103 in the concrete ring of last pile tube 100, the lower end that movable sleeve is inserted in the bottom offset bar 104 in the pillar 103 is connected with bottom offset base bar 204, and the upper end of bottom offset bar 104 is connected with bottom offset sensor platform 123 that is positioned at ground and bottom offset sensor 124.

Last pile tube 100, following pile tube 300, the top board 201 of load means and the outside diameter of base plate 202 and support 210 all equate; Last pile tube 100 is integrally welded with back, top board 201 location by last reference column 205, and following pile tube 300 is by reference column 206 is integrally welded with back, base plate 202 location down; The center line of last pile tube 100, following pile tube 300, top board 201, base plate 202, support 210 and oil cylinder 220 all overlaps with pile tube axis O-O.

In the concrete ring of last pile tube 100, vertically be set with bottom offset bar pillar 103 vertically, bottom offset bar 104 is inserted in the pillar 103.The two ends of this bottom offset bar pillar 103 are welded with extension bar epicoele 102 and extension bar cavity of resorption 108 respectively.Latch 122 was connected with bottom offset sensor platform 123 on the top of bottom offset bar 104 was passed through in extension bar epicoele 102, and bottom offset sensor platform 123 is at the top of last pile tube 100, and bottom offset sensor 124 is installed thereon; The lower end of bottom offset bar 104 is connected with bottom offset base bar 204 in the load means 200 by following latch in extension bar cavity of resorption 108.When making force measurement pipe pile, extension bar epicoele 102, pillar 103, extension bar cavity of resorption 108 are together rolled the reinforced frame that pile tube 100 is gone up in formation admittedly with last pipe pile reinforcing bar, bottom offset bar 104, pillar 103, extension bar epicoele 102 and extension bar cavity of resorption 108 just together are solidificated in the concrete ring of pile tube 100 behind the last pile tube 100 casting cement, with the fixing vertical position of bottom offset bar 104.When not needing to use bottom offset bar 104 and bottom offset bar pillar 103, can use interface guard shield 101 that the top of bottom offset bar pillar 103 is covered.Bottom offset base bar 204 lower ends firmly are connected with base plate 202 with screw thread, and latch 119 was connected with bottom offset bar 104 lower ends in extension bar cavity of resorption 108 under bottom offset base bar 204 upper ends were used.

Described bottom offset base bar 204, pillar 103 and movable sleeve are inserted in the pillar 103 and the bottom offset bar 104 that is connected with bottom offset base bar 204 is two, and all are symmetrical in pile tube axis O-O.

The external diameter of oil cylinder 220 is identical with the internal diameter of support 210; The external diameter of piston 230 is identical with the internal diameter of oil cylinder 220, and it highly is slightly less than the height of oil cylinder 220 inner chambers, and is fixed by bed bolt 203 and is installed on the base plate 202.Like this, when being sleeved on oil cylinder 220 on the piston 230, make piston 230 closely contact, and between the top of piston 230 and oil cylinder 220 inner chambers, formed a small oil pocket with the sidewall of oil cylinder 220.Top at oil cylinder 220 is provided with oil-in, and this oil-in passes top board 201, is connected with oil pipe 106 by tubing interface 107, and oil pipe 106 upper ends connect protruding oil nozzle 121, with extraneous fuel delivery device and oil pocket internal communication.As shown in Figure 3, oil pipe 106 usefulness oil tube brackets 125 are fixed on the reinforcing bar in pile tube 100 internal cavities, and can be symmetrical arranged multiple-tubing string support 125 along central axis.In addition, oil pipe 106 can adopt seamless steel pipe, also can adopt rubber oil hose.

The last ring 211 that support 210 comprises interior ring 213, be welded as a whole with interior ring 213 tops, and the lower toroidal ring 212 that is welded as a whole of interior ring 213 bottoms and the radially equally distributed setting floor 214 that is welded as a whole with last ring 211, lower toroidal ring 212 and interior ring 213 external cylindrical surfaces.Last ring 211 adopts with load means top board 201 and goes up bolt 207 fixing and firmly welding; Lower toroidal ring 212 is fixed by following bolt 208 with load means base plate 202 and is connected in seam K place's spot welding.

As shown in Figure 2, be E-E center line cross-sectional plan view along load means 200.The support 210 of piston 230, oil cylinder 220 and annular is the coaxial distribution in the center of circle with pile tube axis O-O.The floor that is provided with a plurality of settings 214 that the circumference of support 210 inwalls is radially even, symmetrical forms actinomorphic structure.In order to make load means firmer, adopt the symmetrical structure setting usually.In Fig. 2, be example, also can be arranged to 6,10,12 or more even numbers as required with 8 floors.Like this, the space that surrounds of the external cylindrical surface of last ring 211, lower toroidal ring 12 and interior ring 213 is divided into the even number fan section.

Specifically, as shown in Figure 2, excircle at support 210, also be provided with the rack side plate 215 of arc between the part adjacent supports floor, the outward flange and the upper and lower annular slab outward flange of support of itself and adjacent two adjacent setting floors 214 are welded as a whole, between these two adjacent stent floors, formed sealed hollow, to strengthen the fastness and the weight capacity of load means.In Fig. 2, along A-A radially, B-B radially is symmetrically arranged with 4 support outer walls respectively.Symmetry, equally distributed rack side plate 215 can further improve the fastness of load means so at interval.In conjunction with Fig. 1 and Fig. 2 as can be seen, in the cavity that is provided with rack side plate 215 formation, displacement measuring device can be set, just bottom offset base bar 204, two the bottom offset bases bar (204) shown in Fig. 1 is symmetrical in pile tube axis O-O and is installed in this group fan section.In this cavity, support lower toroidal ring 212 is passed in the lower end of bottom offset base bar 204, with base plate 202 by being threaded; Ring 211 on the support is passed in the upper end, and the extension bar cavity of resorption that extends to pile tube 100 bottoms and bottom offset bar 104 are connected by latch.The feasible so also symmetrical and pile tube axis O-O of bottom offset bar 104 that goes up in the pile tube measures two locational displacements of pile tube simultaneously, can obtain measurement result more accurately.

In conjunction with Fig. 2 and Fig. 3, Fig. 3 is the central axis O-O through force measurement pipe pile, along the cross section view of B-B line among Fig. 2 again.Just another is to being provided with the cavity that rack side plate 215 forms, on the position of this cavity, the bottom of the top of last ring 211 and lower toroidal ring 212 is fixedly welded with reference column 205 and following reference column 206 respectively, pass top board 201 and base plate 202 respectively, in the insertion in pile tube 100 and the following pile tube 300, be fixed as one respectively at reinforcing bar 135 welding in the pile tube up and down, load means 200 in the vertical directions and pile tube up and down be fixed together with this.

The sallop screen 216 that is parallel to the upper and lower annular slab of support also is set between the adjacent setting floor 214 of part, be welded as a whole with two adjacent setting floors 214 and interior ring 213 external cylindrical surfaces, be fixedly mounted on interior ring of support and adjacent supports and erect between the floor 214.The setting of sallop screen 216 is similar to rack side plate 215, can be arranged on along between axisymmetric two adjacent stent floors, as shown in Figure 4, sallop screen 216 is arranged among Fig. 2 C-C radially and between the D-D adjacent stent floor radially.The position of rack side plate 215 and sallop screen 216 can be provided with separately, to guarantee that load means can be with firm the linking together of pile tube up and down, also can be according to concrete needs, for example be provided with under the situation of 10,12 or more floors, on the fastness basis that guarantees load means, be arranged to other forms of combination.

In conjunction with Fig. 2 and Fig. 4, Fig. 4 is for the central axis O-O through force measurement pipe pile, along the cross section view of C-C line among Fig. 2.Be provided with sallop screen 216 shown in Fig. 4, between ring on the support 211 and lower toroidal ring 212, adopt last bolt 207 and following bolt 208 will go up ring 211 respectively and be fixed on the top board 201, and lower toroidal ring 212 is fixed on the base plate 202.Dividing plate is set like this can keeps load means Stability Analysis of Structures in the horizontal direction effectively, and when being subjected to pile sinking pressure pile tube Stability Analysis of Structures in the horizontal direction, and when pile sinking carries out dynamometry work, can carry out pressurized operation very easily with playing bolt 208 to take off.

The length of last pile tube 100 and following pile tube 300 will decide according to test point soil layer mechanical characteristic, oil cylinder 220 and piston 230 is on the equalization point gets final product, if bearing stratum is very big, also can cancel pile tube 300 down.As shown in Figure 5,, can descend pile tube to be transformed into conical stake point 310, adopt bolt 311 to be fixed in the bottom surface of base plate 202 if cancel when pile tube 300 carries out dynamometry down.

Before the force measurement pipe pile that uses the utility model to provide carries out dynamometry, general hammering machinery or the static pressure machinery of using sent force measurement pipe pile into the test point soil layer, notice instantly that pile tube 300 soon all enters soil layer and oil cylinder 220 and piston 230 during, should lay down bolt 208 down near ground.Treat just can carry out dynamometry work after the intermittent phase.Do homework earlier, the epirelief oil nozzle 121 and the pumping plant (not drawing among the figure) of oil pipe 106 upper ends are connected; Level sensor 124 down is installed on the bottom offset sensor platform 123, and its holding wire connects (not drawing among the figure) with analytical instrument; Top offset sensor 132 can be directly installed on the end of the last pile tube 100 that is exposed to ground, if ground is sunk in the end of last pile tube 100, then the top bed hedgehopping of going up pile tube 100 should be made its displacement transducer 132 of installing again above ground level, its holding wire connects (not drawing among the figure) with analytical instrument.During measurement, the pumping plant pressure oil output, oil pipe 106 is conveyed into oil pocket between oil cylinder 220 and the piston 230 with pressure oil, after reaching certain pressure, piston 230 backs down base plate 202 and the finite point spot welding on the lower toroidal ring 212 circumferential seam K, like this, pile tube 300 was descending under base plate 202 promoted, connect bottom offset base bar 204 thereon simultaneously, bottom offset bar 104 and the next sensor platform move together and move down, be installed on bottom offset sensor 124 on the bottom offset sensor platform 123 and convert this amount of moving down to signal and send into analytical instrument, calculate down the power output of pile tube 300; On the other hand, oil cylinder 220 also can head on the pile tube 100 and move, and the top offset sensor 132 that is installed in pile tube 100 ends converts the amount of moving on this to signal and sends into analytical instrument, calculates the power output of pile tube 100; The power output of following pile tube 300 and the power output of last pile tube 100 are added up, can calculate the bearing capacity of whole force measurement pipe pile by certain formula.

Claims (9)

1. force measurement pipe pile, comprise cylindrical shape concrete pile tube, tapered pile point and load means, it is characterized in that: described pile tube comprises pile tube (100), following pile tube (300) and connects the load means (200) that should go up pile tube (100), following pile tube (300) or tapered pile point (310), be positioned at load means (200) between pile tube (100) and the following pile tube (300) comprise top board (201), base plate (202) and be positioned at top board (201) and base plate (202) between support (210), oil cylinder (220) is installed in the interior annulus of described support (210) movingly; The top of oil cylinder (220) is provided with oil-in, and oil-in is connected with ground pump station by petroleum pipeline (106), and oil cylinder inside is provided with piston (230); Interior ring (213) arranged outside of support (210) has bottom offset base bar (204), pre-buried pillar (103) in the concrete ring of last pile tube (100), the lower end that movable sleeve is inserted in the bottom offset bar (104) in the pillar (103) is connected with bottom offset base bar (204), the upper end of bottom offset bar (104) is connected with the bottom offset sensor platform (123) that is positioned at ground, and bottom offset sensor (124) is installed on the described bottom offset sensor senses applicator platform (123).

2. force measurement pipe pile according to claim 1 is characterized in that: described pile tube (100), following pile tube (300), the top board (201) of load means and the outside diameter of base plate (202) and support (210) gone up all equates; Last pile tube (100) is integrally welded with back, top board (201) location by last reference column (205), and following pile tube (300) is by reference column (206) is integrally welded with back, base plate (202) location down; The described center line of going up pile tube (100), following pile tube (300), top board (201), base plate (202), support (210) and oil cylinder (220) all overlaps with pile tube axis O-O.

3. force measurement pipe pile according to claim 1, it is characterized in that: described bottom offset base bar (204), pillar (103) and movable sleeve are inserted in the pillar (103) and the bottom offset bar (104) that is connected with bottom offset base bar (204) is two, and all are symmetrical in pile tube axis O-O; Welding bars epicoele (102) and extension bar cavity of resorption (108) are joined in pillar (103) two ends; Bottom offset base bar (204) lower end firmly is connected with base plate (202) with screw thread, and latch (119) was connected with bottom offset bar (104) lower end in extension bar cavity of resorption (108) under bottom offset base bar (204) upper end was used; Bottom offset bar (104) upper end is used latch (122) and is connected with bottom offset sensor platform (123) in extension bar epicoele (102), and bottom offset sensor (124) is installed on the described bottom offset sensor platform (123).

4. force measurement pipe pile according to claim 1 and 2 is characterized in that: the height of described oil cylinder is less than the height of support (210).

5. force measurement pipe pile according to claim 1 and 2 is characterized in that: the last ring (211) that described support (210) comprises interior ring (213), be welded as a whole with interior ring (213) top, and the lower toroidal ring (212) that is welded as a whole of interior ring (213) bottom and the radially equally distributed setting floor (214) that is welded as a whole with last ring (211), lower toroidal ring (212) and interior ring (213) external cylindrical surface.

6. force measurement pipe pile according to claim 1 or 5, it is characterized in that: the described ring (211) of going up adopts the fixing and firmly welding of first bolt (207) with load means top board (201); Described lower toroidal ring (212) is fixed and is located spot welding in seam (K) by second bolt (208) with load means base plate (202) and is connected.

7. force measurement pipe pile according to claim 5, it is characterized in that: described radially equally distributed setting floor (214) is for even numbered blocks, will go up the space that the external cylindrical surface of ring (211), lower toroidal ring (212) and interior ring (213) surrounds and be divided into the even number fan section; In one group of non-conterminous fan section, arc side plate (215) and two adjacent setting floors (214), the external arc that goes up ring (211) and lower toroidal ring (212) cooperate and are welded as a whole; In another organized non-conterminous fan section, two bottom offset base bars (204) were symmetrical in pile tube axis O-O and are installed in this group fan section; Sallop screen (216) parallel and that be positioned at ring (211) and lower toroidal ring (212) middle is welded as a whole with two adjacent setting floors (214) and ring (213) external cylindrical surface, and first bolt (207) or second bolt (208) that support (210) is connected with top board (201) or base plate (202) are positioned at this group fan section.

8. force measurement pipe pile according to claim 7 is characterized in that: described setting floor (214) is 6,8,10 or 12.

9. force measurement pipe pile according to claim 7 is characterized in that: described oil pipe (106) is seamless steel pipe or rubber oil hose.

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