TWM568872U - Heat dissipation structure device for pile drivers - Google Patents

Abstract

A pile-driving machine heat-dissipating structure device comprises: a rotating seat, which is provided with two pivoting holes and two pivoting members; a pivoting seat, which is provided with two pivoting portions and a pivoting region; a pile driver a gear slot is provided with an accommodating space, a vibration device, a drainage hole and an inlet hole, and a pumping device. The vibration device is provided with at least one transmission shaft, and the transmission shaft is provided with a transmission member. The pumping device is provided with an inflow port, an outflow port, a receiving slot, a rotating shaft, a through hole, a driving member and at least one flow guiding member; and a heat dissipating tube which is provided with a heat dissipation hole An inflow end and an outflow end are arranged, so that the liquid discharged from the drain hole is introduced into the heat dissipating hole through the inflow end, and after being cooled by the heat dissipating tube, the outflow end is introduced into the receiving space through the inflow hole. Therefore, a pile-driving device heat-dissipating structure device is provided, in particular, a pumping device is used to convey lubricating oil to the heat-dissipating tube to dissipate heat during operation, and to achieve the function of a pile driver with rapid heat dissipation.

Description

Pile driver heat dissipation structure device

The present invention relates to a pile-driving machine heat-dissipating structure device, in particular, in the operation process, the pump device is used to transport lubricating oil to the heat-dissipating tube to dissipate heat, and to achieve the function of the pile driver with rapid heat dissipation.

According to the conventional heavy machinery, there are different types of styles for different work. The pile mechanics that use the impact force to penetrate the pile into the ground are commonly known as pile drivers. The pile driver is composed of pile hammers, pile frames and attachments. The equipment consists of piles and hammers attached to the two parallel vertical guides at the front of the pile frame and lifted by lifting hooks; the pile frame is a metal structure tower, and a hoist is arranged at the rear to lift the piles and The pile hammer and the guide frame are arranged in front of the pile frame to control the piling direction, so that the pile can accurately penetrate the formation according to the design orientation; the pile hammer is made of metal and has a certain weight, and the pile is freely dropped along the guide frame after decoupling, and the pile hammer pile driver pile is piled. The hammer is composed of a hammer head and a hammer seat; the pile hammer can be divided into a drop hammer, a steam hammer, a diesel hammer, a hydraulic hammer, etc. according to the power source of the movement, and the hydraulic hammer pile driver is powered by the oil pressure, and can be adjusted according to the soil quality of the formation. Hydraulic, to achieve the appropriate impact force for piling, hydraulic hammer pile driver piling precision control, according to different types of piling operations; hydraulic hammer pile driver in the reduction of noise, vibration and noise performance, especially Together densely populated urban area construction use, and hydraulic hammer pile driver energy saving effect is obvious, resulting in the engineering sector become mainstream use Pile driver.

However, as far as the above is concerned, however, the liquid used in the pile driver is mainly composed of a synthetic oil having a lubricating function. However, although the synthetic oil can be adjusted according to the use requirements, the heat resistance and the lubricity are adjusted, but it is generated during the construction process. The heat energy is difficult to discharge, causing the temperature of the synthetic oil to gradually rise, causing the synthetic oil to deteriorate and losing the lubricating function, which in turn leads to wear and tear of the implement. In the next step, if the synthetic oil with higher temperature resistance is used, it has good lubrication even at high temperature operation. Function, however, the lubrication function is poor in the low temperature state, the most expensive parts are damaged at the start, and the more precise parts in the machine are more affected by the high temperature and expand and deform, especially the bearing in the machine, the bearing is the kinetic energy of the machine The most important component in the transmission to reduce the dynamic energy loss, and the bearing structure is more precise, it is easy to cause expansion and deformation in the overheated environment, and thus its function is lost, which is a major drawback, and needs to be improved.

The present invention provides a pile-driving machine heat-dissipating structure device, which comprises: a rotating seat, each of which has a pivoting hole at a corresponding position on each side, and each pivoting hole is provided with a pivoting member; a pivoting seat, A pivoting portion is disposed at a position corresponding to each of the pivoting holes, and the pivoting member is disposed in the pivoting hole and pivoted to the pivoting portion, so that the rotating base is pivotally coupled to the pivoting seat. The pivoting seat is provided with a pivoting zone; a pile driver gear groove is disposed in the pivoting zone, so that the pivoting seat and the piler gear groove are pivotally fixed, and the pile driver gear groove An accommodating space and a vibration device are provided, the vibration device is provided with at least one transmission shaft, wherein the pile driver gear groove is provided with a drainage hole and an inlet hole, and the inlet hole is received The space is in a communicating state, and a pumping device is fixed at one end of the accommodating space, and the pumping device is provided with an inflow port, an outflow port, a receiving groove, a rotating shaft, a perforation and a driving And the at least one flow guiding member is in a state of being in communication with the accommodating space and the accommodating groove, wherein the venting opening is in communication with the discharging hole and the accommodating groove, and the rotating shaft is threaded The rotating shaft is pivotally connected, and the lower end of the rotating shaft is disposed in the receiving groove and is pivotally fixed to the guiding member. The rotating shaft is provided with the driving member at the upper end thereof, and is at one end of the transmission shaft. A corresponding transmission member is arranged to rotate the rotating shaft and the flow guiding members when the driving shaft rotates, so that the liquid is introduced into the receiving groove through the inlet port through the inlet space, and is discharged from the outlet port to the outlet port. The heat dissipating tube is provided with a heat-dissipating material, and the heat-dissipating tube is provided with a heat-dissipating hole, and the heat-dissipating hole is formed through the heat-dissipating tube, so that the heat-dissipating tube has a hollow tubular shape, and the heat-dissipating hole is provided with a heat-dissipating hole An inflow end and an outflow end, the inflow end is connected to the drainage hole The outflow end communicates with the inflow hole, so that the liquid discharged from the drainage hole is introduced into the heat dissipation hole through the inflow end, and after the heat dissipation and cooling of the heat dissipation pipe, the outflow end is introduced into the accommodation space through the inflow hole. in.

The vibrating device of the gear groove of the pile driver is provided with two gears, the two gears mesh with each other, and the two gear trains are pivotally fixed with the two transmission shafts, and each of the gears is provided with an oscillating member at one end thereof, so that the transmission shafts are arranged. When rotating, each of the oscillating members rotates and generates vibration; wherein each of the transmission shafts is pivotally provided with a plurality of positioning members, and each of the positioning members is disposed at the rear end of each gear and at the front end of each of the oscillating members, so that the positioning members are clamped and fixed. Each of the gears and each of the oscillating members are at a predetermined position; wherein each of the front end and the rear end of each of the drive shafts is provided with a bearing, and each bearing is pivoted at the capacity a fixed state in the space; wherein the gear groove of the pile driver is provided with a through hole at one end thereof, the through hole is provided for the transmission shaft, so that the transmission shaft and the external gear of the pile driver gear groove are interlocked, so that each The transmission shaft rotates; wherein the pivoting seat is provided with a plurality of heat sinks, each heat sink is fixedly assembled with the heat dissipation tube, and each heat sink is presented by a heat conductive material, so that the heat pipe can conduct heat energy to each heat sink. In order to increase the heat dissipation effect, the heat dissipation pipe and the heat sinks may be coated with a heat dissipation paste, and the heat dissipation paste is mixed by any one or any combination of a silicone resin, a polyurethane, an acrylate polymer or a hot melt adhesive. The pile driver gear groove and the pivoting seat are made of a metal material, so that the liquid in the accommodating space can be dissipated by the pile driver gear groove and the pivoting seat; wherein the pile driver A set of joints is arranged at the lower end of the gear groove, and the set of joints is provided with a plurality of set holes; wherein the set of joints is provided with a piling device, and the upper end of the pile driving device is pivotally disposed on the set joint surface, and Wear with a plurality of screw locks Apertures provided in each set and screwed to the piling device secured at its upper end.

The main purpose of the present invention is to provide a pile-driving machine heat-dissipating structure device, in particular, a pumping device for conveying lubricating oil to the heat-dissipating tube for heat dissipation during operation, and achieving the function of a pile driver with rapid heat dissipation.

Due to the creation of the pile-driving machine heat-dissipating structure device, the effect is: by the rotation The pivoting seat is provided with a plurality of pivoting holes at corresponding positions on the two sides, and each of the pivoting holes is provided with the pivoting member; the pivoting seat is provided at each position corresponding to each pivoting hole The pivoting portion is disposed in the pivoting hole and pivoted to the pivoting portion, so that the rotating base is pivotally coupled to the pivoting seat, and the pivoting seat is provided with the pivoting region The pile driver gear groove is disposed in the pivoting zone, and the pivoting seat is pivotally fixed to the gearbox of the pile driver, and the gearbox of the pile driver is provided with the receiving space and the vibration device The vibration device is provided with a plurality of transmission shafts. The pile gear is provided with the drainage hole and the inlet hole. The inlet hole is in communication with the accommodating space, and the end of the accommodating space is provided at one end. The pumping device is in a fixed state, and the pumping device is provided with the inflow port, the outflow port, the receiving groove, the rotating shaft, the through hole, the driving member and each flow guiding member, and the inflow hole is The accommodating space and the accommodating groove are in a communicating state, and the outlet port is in communication with the drainage hole and the accommodating groove, and the rotating shaft is disposed The through hole is pivotally connected, and the lower end of the rotating shaft is disposed in the receiving groove and is pivotally fixed to the flow guiding member. The rotating shaft is provided with the driving member at the upper end thereof, and is at one end of the transmission shaft. Corresponding the transmission member is arranged to rotate the rotating shaft and the flow guiding members when the driving shaft rotates, so that the liquid is introduced into the receiving groove through the inlet port through the inlet space, and the liquid is discharged from the outlet port to the outlet port. The heat dissipating tube is provided with a heat conducting material, and the heat dissipating tube is provided with the heat dissipating hole, and the heat dissipating hole is penetrated through the heat dissipating tube, so that the heat dissipating tube has a hollow tubular shape, and the heat dissipating hole is provided with The inflow end and the outflow end are connected to the drainage hole, and the outflow end is in communication with the inflow hole, so that the liquid discharged from the drainage hole is introduced into the heat dissipation hole through the inflow end, After the heat dissipation pipe cools down, the outflow end is introduced into the accommodating space through the inflow hole; thereby providing a pile dispersing device heat dissipating structure device, especially in the operation process, using the pump The pump device delivers the lubricating oil to the heat dissipating tube to achieve the function of the pile driver with rapid heat dissipation.

This creation:

1‧‧‧ rotating seat

11‧‧‧Pivot hole

12‧‧‧ pivoting parts

2‧‧‧ pivot

21‧‧‧Pivot Department

22‧‧‧ pivot zone

23‧‧‧ Heat sink

3‧‧‧Piling machine gear slot

31‧‧‧ accommodating space

32‧‧‧Vibration device

321‧‧‧ drive shaft

3211‧‧‧ Transmission parts

3212‧‧‧ Positioning parts

322‧‧‧ Gears

323‧‧‧shocks

324‧‧‧ bearing

33‧‧‧Drains

34‧‧‧Inlet hole

35‧‧‧ pumping device

351‧‧‧Inlet

352‧‧‧ Outlet

353‧‧‧ accommodating slots

354‧‧‧ shaft

355‧‧‧Perforation

356‧‧‧Drives

357‧‧‧ deflector

36‧‧‧through hole

37‧‧‧Group junction

371‧‧‧Set holes

4‧‧‧heat pipe

41‧‧‧ vents

42‧‧‧Inflow

43‧‧‧ Outflow

5‧‧‧Piling device

6‧‧‧ Screw locks

The first picture is a three-dimensional diagram of the creation.

Figure 2 is a three-dimensional exploded view of the creation.

The third figure is a schematic diagram of the conduction state of the creation.

Figure 4 is an enlarged view of the bottom of the creation.

Figure 5 is a schematic diagram of the implementation of the preferred embodiment of the present invention.

First of all, please refer to Figure 1 to Figure 5 , which is the "piling machine heat dissipation structure device" of the present invention; it comprises a rotating base 1, a pivoting seat 2, a pile driver gear groove 3 and a heat pipe 4 Wherein: the rotating base 1 is provided with a pivoting hole 11 at each of the corresponding positions on the two sides, and each of the pivoting holes 11 of the rotating base 1 is provided with a pivoting member 12; A pivoting portion 21 is disposed at a position corresponding to each of the pivoting holes 11 of the rotating base 1 , and the pivoting member 12 of the rotating base 1 is disposed through the pivoting hole 11 of the rotating base 1 and is pivoted The pivoting seat 1 is pivotally coupled to the pivoting seat 2, and the pivoting seat 2 is provided with a pivoting region 22; a pile driver gear slot 3, The pivoting seat 2 is disposed in a pivotal fixed state with the pile driver 3, and the pile driver 3 is provided with an accommodating space 31 and a vibration device. 32. The vibration device 32 of the pile driver gear groove 3 is provided with at least one transmission shaft 321; wherein the pile driver gear groove 3 is provided with a drainage hole 33 and an inlet hole 34, and the pile driver gear groove 3 The inlet hole 34 is in communication with the accommodating space 31 of the pile driver gear groove 3. The pumping device 35 is fixed at one end of the accommodating space 31 of the pile driver gear groove 3, and the pile driver gear groove The pumping device 35 of the 3 is provided with an inflow port 351, an outflow port 352, a receiving groove 353, a rotating shaft 354, a through hole 355, a driving member 356 and at least one flow guiding member 357, and the pile driver gear groove The inlet port 351 of the pumping device 35 of the third embodiment is in communication with the accommodating space 31 of the pile driver gear groove 3 and the accommodating groove 353 of the pumping device 35 of the pile driver gear groove 3, and the pile driver gear groove 3 The outflow port 352 of the pumping device 35 is in communication with the discharge hole 33 of the pile driver gear groove 3 and the receiving groove 353 of the pumping device 35 of the pile driver gear groove 3, and the pile driver gear groove 3 The rotating shaft 354 of the pumping device 35 is pivotally connected to the through hole 355 of the pumping device 35 of the pile driver gear groove 3, and the rotating shaft 354 of the pumping device 35 of the pile driver gear groove 3 is at the lower end thereof. a pumping device disposed in the receiving groove 353 of the pumping device 35 of the pile driver gear groove 3 and with the pile driver gear groove 3 The deflector 357 of the pumping device 35 of the pile driver gear groove 3 is provided with a driving member 356 of the pumping device 35 of the pile driver gear groove 3 at the upper end thereof, and the pile 356 is The drive shaft 321 of the vibration device 32 of the machine gear groove 3 is provided with a corresponding transmission member 3211 at one end thereof, so that the drive shaft 321 of the vibration device 32 of the pile driver gear groove 3 drives the pump of the pile driver gear groove 3 The rotating shaft 354 of the pump device 35 and the flow guiding members 357 of the pumping device 35 of the pile driver gear groove 3 are rotated, so that the liquid is pumped by the pile driver gear groove 3 in the accommodating space 31 of the pile driver gear groove 3. After the inlet port 351 of the device 35 is introduced into the accommodating groove 353 of the pumping device 35 of the pile driver gear groove 3, the outlet port 352 of the pumping device 35 of the pile driver gear groove 3 is discharged to the pile driver gear groove 3. The heat dissipating tube 4 is formed by a heat-conducting material. The heat-dissipating tube 4 is provided with a heat-dissipating hole 41. The heat-dissipating hole 41 of the heat-dissipating tube 4 extends through the heat-dissipating tube 4, so that the heat-dissipating tube 4 is In the hollow tubular shape, the heat dissipation hole 41 of the heat dissipation pipe 4 is provided with an inflow end 42 and an outflow end 43. The heat pipe The inflow end 42 of the fourth line communicates with the discharge hole 33 of the pile driver gear groove 3, and the outflow end 43 of the heat dissipation pipe 4 communicates with the inlet hole 34 of the pile driver gear groove 3, so that the pile driver gear groove 3 The liquid discharged from the drain hole 33 is introduced into the heat dissipation hole 41 of the heat dissipation pipe 4 through the inflow end 42 of the heat dissipation pipe 4, and after the heat dissipation and cooling of the heat dissipation pipe 4, the outflow end 43 of the heat dissipation pipe 4 passes through the pile driver. The inlet hole 34 of the gear groove 3 is introduced into the accommodating space 31 of the pile driver gear groove 3, so that the liquid in the accommodating space 31 of the pile driver gear groove 3 circulates and continues to dissipate heat, so as to effectively discharge heat energy; From the above structure, it is further explained that the vibration device 32 of the pile driver gear groove 3 is provided with two gears 322, and the two gears 322 of the vibration device 32 of the pile driver gear groove 3 are meshed with each other, and the pile driver The two gears 322 of the vibration device 32 of the gear groove 3 are pivotally fixed to the two transmission shafts 321 of the vibration device 32 of the pile driver gear groove 3, and are at one end of each gear 322 of the vibration device 32 of the pile driver gear groove 3. Each of the system is provided with an oscillating member 323, so that the vibration device 32 of the pile driver gear groove 3 When the respective transmission shafts 321 rotate, the respective oscillating members 323 of the vibration device 3 2 of the pile driver gear groove 3 rotate and generate vibration; wherein the transmission shafts 321 of the vibration device 32 of the pile driver gear groove 3 are pivotally provided with plural Positioning members 3212, the positioning members 3212 of the respective transmission shafts 321 of the vibration device 32 are disposed at the rear ends of the gears 322 of the vibration device 32 of the pile driver gear groove 3 and the vibration device 32 of the pile driver gear groove 3 At the front end of each of the oscillating members 323, the locating members 3212 of the respective transmission shafts 321 of the vibrating device 32 are provided with vibrations of the gears 322 of the vibrating device 32 of the pile driver gear groove 3 and the gearbox 3 of the pile driver. Each of the oscillating members 323 of the device 32 is at a predetermined position; wherein a front end and a rear end of each of the transmission shafts 321 of the vibrating device 32 of the pile driver gear groove 3 are respectively provided with a bearing 324, and the vibration device of the pile driver gear groove 3 Each of the bearings 324 of the 32 is pivotally disposed at a predetermined position in the accommodating space 31 of the pile driver gear groove 3; wherein the heat-dissipating heat of the heat-dissipating pipe 4 is discharged from the outflow end 43 of the heat-dissipating pipe 4 The inflow hole 34 of the pile driver gear groove 3 is introduced into the piling In the accommodating space 31 of the gear groove 3, each bearing 324 is immersed in the lubricating oil to maintain a certain operating temperature, so that the operating environment of each bearing 324 is maintained at a predetermined temperature, so that each bearing 324 is not easily deformed by overheating to maintain The mechanism of each bearing 324 is normal, and the heat sink function of the vibration device 32 is extended. The pile gear 3 of the pile driver has a through hole 36 at one end thereof, and the through hole 36 of the pile gear 3 of the pile driver The drive shaft 321 of the vibration device 32 of the pile driver gear groove 3 is passed through, so that the drive shaft 321 of the vibration device 32 of the pile driver gear groove 3 and the external power of the pile driver gear groove 3 are interlocked, so that the pile driver The drive shaft 321 of the vibration device 32 of the gear groove 3 rotates; the pile driver gear groove 3 and the pivot seat 2 are made of metal, so that the liquid in the accommodation space 31 of the pile driver gear groove 3 can be The pile driver gear groove 3 and the pivoting seat 2 are dissipated by heat; the lower end of the pile driver gear groove 3 is provided with a plurality of joint faces 37, and the grouping surface 37 of the pile driver gear groove 3 is provided with a plurality of groups. Providing a hole 371; wherein the pile driver tooth The assembly surface 37 of the groove 3 is provided with a piling device 5, and the upper end of the piling device 5 is pivotally disposed on the assembly surface 37 of the pile driver gear groove 3, and is inserted into the pile driver by a plurality of screw lock members 6. Each set of holes 371 of the assembly surface 37 of the gear groove 3 is screwed and fixed to the upper end of the pile driving device 5; the pivoting seat 2 is provided with a plurality of heat sinks 23, and the heat dissipation of the pivoting seat 2 The heat dissipation tube 23 is disposed in a heat-conducting material, so that the heat-dissipating tube 4 can conduct heat energy to the heat sinks 23 of the pivoting seat 2 to increase The heat dissipating effect; in particular, the heat dissipating tube 4 and the heat dissipating fins 23 of the pivoting seat 2 may be coated with a heat dissipating paste, and the heat dissipating paste is made of a silicone resin, a polyurethane, an acrylate polymer or a hot melt adhesive. Any one or any combination of mixed metal powders to increase the heat transfer efficiency of the heat pipe 4 and the heat sink 23 of the pivoting seat 2; : The rotating base 1 is provided with a plurality of pivot holes 11 at corresponding positions on the two sides, and each pivoting seat 1 is pivoted Each of the pivoting members 12 is provided with a plurality of pivoting members 12; the pivoting seats 2 are provided with respective pivoting portions 21 at positions corresponding to the pivoting holes 11 of the rotating base 1, and the pivoting members of the rotating base 1 The pivoting hole 11 is disposed in the pivoting hole 11 of the rotating base 1 and is pivotally disposed on the pivoting portion 21 of the pivoting seat 2, so that the rotating base 1 is pivotally coupled to the pivoting seat 2, and the pivoting seat 2 is pivotally coupled The pivoting gear zone 3 is disposed in the pivoting zone 22 of the pivoting seat 2, so that the pivoting seat 2 and the pile driver gear slot 3 are pivotally fixed. The pile driver gear groove 3 is provided with the accommodating space 31 and the vibration device 32. The vibration device 32 of the pile driver gear groove 3 is provided with each transmission shaft 321 , and further, the pile driver gear groove 3 is provided The venting hole 33 and the inlet hole 34 are in communication with the accommodating space 31 of the pile driver gear groove 3, and the accommodating space 31 of the pile driver gear groove 3 The pumping device 35 is fixed at the inner end, and the pumping device 35 of the pile driver gear groove 3 is provided with the inflow port 351, the outflow port 352, the receiving groove 353, the rotating shaft 354, The perforation 355, The driving member 356 and the flow guiding members 357, the inlet port 351 of the pumping device 35 of the pile driver gear groove 3 and the accommodating space 31 of the pile driver gear groove 3 and the pumping device 35 of the pile driver gear groove 3 The accommodating groove 353 of the pile driver gear groove 3 is connected to the discharge port 33 of the pile driver gear groove 3 and the pumping device 35 of the pile driver gear groove 3. The accommodating groove 353 is in a communicating state, and the rotating shaft 354 of the pumping device 35 of the pile driver gear groove 3 is pivotally connected to the through hole 355 of the pumping device 35 of the pile driver gear groove 3, and the pile driver The rotating shaft 354 of the pumping device 35 of the gear groove 3 is disposed at the lower end of the pumping device 35 of the pile driver gear groove 3 and is guided by the pumping device 35 of the pile driver gear groove 3. The member 357 is pivotally fixed, and the rotating shaft 354 of the pumping device 35 of the pile driver gear groove 3 is provided with a driving member 356 of the pumping device 35 of the pile driver gear groove 3 at the upper end thereof, and the gear box 3 of the pile driver 3 The transmission shaft 321 of the vibration device 32 is provided with a corresponding transmission member 3211 at one end thereof, so that the vibration device 32 of the pile driver gear groove 3 is provided. When the drive shaft 321 rotates, the rotating shaft 354 of the pumping device 35 of the pile driver gear groove 3 and the flow guiding members 357 of the pumping device 35 of the pile driver gear groove 3 are rotated, so that the liquid is driven by the pile driver gear groove 3. After the inlet port 351 of the pumping device 35 of the pile driver gear groove 3 in the accommodating space 31 is introduced into the accommodating groove 353 of the pumping device 35 of the pile driver gear groove 3, the pumping device of the pile driver 3 of the pile driver The outflow port 352 of the 35 is discharged to the drainage hole 33 of the pile driver gear groove 3; the heat dissipation pipe 4 is formed by a heat conductive material, and the heat dissipation pipe 4 is provided with the heat dissipation hole 41, and the heat dissipation pipe 4 is disposed. The hole 41 is inserted through the heat dissipating tube 4, and the heat dissipating tube 4 is in a hollow tubular shape. The heat dissipating hole 41 of the heat dissipating tube 4 is provided with the inflow end 42 and the outflow end 43, and the inflow end 42 of the heat dissipating tube 4 And communicating with the drainage hole 33 of the pile driver gear groove 3, the outlet end 43 of the heat dissipation pipe 4 is in communication with the inlet hole 34 of the pile driver gear groove 3, so that the drainage hole 33 of the pile driver gear groove 3 The discharged liquid is introduced into the heat dissipation hole 41 of the heat dissipation pipe 4 through the inflow end 42 of the heat dissipation pipe 4, and is cooled by the heat dissipation pipe 4 to be cooled. The outflow end 43 of the pile driver is introduced into the accommodating space 31 of the pile driver gear groove 3 through the inlet hole 34 of the pile driver gear groove 3, so that the liquid in the accommodating space 31 of the pile driver gear groove 3 circulates and continues to dissipate heat. In order to achieve the effect of effectively discharging heat energy; thereby providing a pile-dissipating device heat-dissipating structure device, in particular, in the operation process, the pumping device 35 is used to deliver lubricating oil to the heat-dissipating tube 4 for heat dissipation, so as to achieve rapid heat dissipation. The pile driver function.

In summary, a pile-driving machine heat-dissipating structure device has not been seen in various books or publicly used, and it is in line with the requirements of the new patent application, so please ask the Bureau to express the patent and grant the patent as soon as possible. To be clear, the above is the specific embodiment of the creation and the technical principles applied. If the changes made according to the concept of this creation, the functional role produced by it does not exceed the spirit of the manual and the drawings. At the time, it should be combined with Chen Ming within the scope of this creation.

Claims (10)

A pile-driving machine heat-dissipating structure device comprises: a rotating seat, wherein each of the two opposite sides is provided with a pivoting hole, each of the pivoting holes is provided with a pivoting member; a pivoting seat, and each of the pivoting seats Each of the pivoting holes is provided with a pivoting portion, and the pivoting member is disposed in the pivoting hole and pivoted to the pivoting portion, so that the rotating base is pivotally coupled with the pivoting seat, and the pivoting The pedestal is provided with a pivoting area; a pile driver gear groove is disposed in the pivoting area, so that the pivoting seat and the piler gear groove are pivotally fixed, and the pile driver gear groove is provided with a a accommodating space and a vibration device, wherein the vibration device is provided with at least one transmission shaft; wherein: the pile driver gear groove is provided with a drainage hole and an inlet hole, and the inlet hole is communicated with the accommodating space a state in which a pumping device is fixed at one end of the accommodating space, the pumping device is provided with an inflow port, an outflow port, a receiving groove, a rotating shaft, a perforation, a driving member and at least a flow guiding member, the inflow port is in communication with the accommodating space and the accommodating groove The venting port is in a state of being in communication with the venting hole and the accommodating groove. The rotating shaft is pivotally connected to the through hole. The lower end of the rotating shaft is disposed in the accommodating groove and is coupled to the accommodating groove. The deflector is pivotally fixed, the rotating shaft is provided with the driving member at the upper end thereof, and a corresponding transmission member is arranged at one end of the transmission shaft, so that the rotating shaft and the flow guiding members rotate when the driving shaft rotates. The liquid is discharged from the accommodating space into the accommodating groove through the inlet port, and is discharged from the outlet port to the drain hole; a heat pipe is formed by a heat conductive material, and the heat pipe is provided with a heat dissipation hole. The heat dissipation hole is formed in a hollow tubular shape, and the heat dissipation hole is provided with an inflow end and an outflow end, and the inflow end is in communication with the drainage hole. The outflow end communicates with the inflow hole, so that the liquid discharged from the drainage hole is introduced into the heat dissipation hole through the inflow end, and after being cooled by the heat dissipation pipe, the outflow end is introduced into the accommodation space through the inflow hole. . The pile driver heat dissipation structure device of claim 1, wherein the vibration device of the pile driver gear groove is provided with two gears, the two gears mesh with each other, and the two gear trains are fixed with the two transmission shafts, and are respectively arranged on the gears. Each end of the system is provided with an oscillating member, which causes each of the oscillating members to rotate and generate vibration when each of the transmission shafts rotates. The pile-driving machine heat-dissipating structure device according to claim 2, wherein each of the transmission shafts is provided with a plurality of positioning members, and each of the positioning members is disposed at a rear end of each gear and at a front end of each of the vibrating members, so that the positioning members are clamped. It is assumed that the gears and the respective vibrating members are fixed at predetermined positions. The pile-driving machine heat-dissipating structure device according to claim 2, wherein each of the front end and the rear end of each of the transmission shafts is provided with a bearing, and each of the bearing shafts is pivotally disposed in the accommodating space to be in a fixed state. The pile driver heat dissipating structure device of claim 1, wherein the pile driver gear groove has a through hole at one end thereof, the through hole is for the transmission shaft to be pierced, and the transmission shaft and the pile driver gear groove are The external power linkage causes the drive shafts to rotate. The pile-driving machine heat-dissipating structure device of claim 1, wherein the pivoting seat is provided with a plurality of heat-dissipating fins, each of the heat-dissipating fins is fixedly disposed with the heat-dissipating tube, and each of the heat-dissipating fins is represented by a heat-conducting material, so that the heat dissipating The tube conducts heat energy to each heat sink to increase heat dissipation. The pile-driving machine heat-dissipating structure device according to claim 6, wherein the heat-dissipating tube and the heat-dissipating fins are coated with a heat-dissipating paste, and the heat-dissipating paste is made of a silicone resin, a polyurethane, an acrylate polymer or a hot melt. The glue is made of any one or any combination of metal powders. The pile driver heat dissipating structure device of claim 1, wherein the pile driver gear groove and the pivoting seat are made of a metal material, so that the liquid in the accommodating space can be obtained by the pile driver gear groove and the pivot Set the seat for heat dissipation. The pile driver heat dissipation structure device of claim 1, wherein the bottom end of the pile driver gear groove is provided with a set of joints, and the set of joint faces is provided with a plurality of set holes. The pile driver heat dissipation structure device of claim 9, wherein the set of joints is provided with a piling device, the upper end of the piling device is pivotally disposed on the set of joint faces, and is disposed in each group by a plurality of screw lock members. A hole is provided and screwed to the upper end of the piling device.