CN207289430U - A kind of portable modular Boring device - Google Patents

Abstract

The utility model provides a kind of portable modular Boring device, it includes feeding carriage module, boring bar drive module, bore hole bracket engagement module, controller and boring bar weldering bar module；Bore hole processing module is made of multi-functional boring processing modules such as coaxial boring bar driver, vertical boring bar driver, single shaft weldering bar drivers；Based on module feeding carriage module, the control being axially moved to boring bar or weldering bar and its respective drivers can be achieved, and contain the electronic drive unit of bore hole processing module part, it is possible to achieve the modularization of portable boring processing unit boring processing operation and automation.Therefore, the utility model has both the function of portable automatic Boring machine and boring welding machine, may be mounted at and repair is directly carried out on pending workpiece, complete the integrated treatment operation of bore hole, and there is the characteristics of operating procedure is few, and installation time and process-cycle are short, high precision machining.

Description

Portable modularization bore hole processingequipment

Technical Field

The utility model relates to an automatic change multi-functional machining device field, especially an automatic accurate bore hole processingequipment of portable modularization.

Background

In mining industry, forestry industry, construction industry, metallurgy industry, ship manufacturing industry and other industries, large-scale engineering equipment is widely used. Because these devices are extremely heavy or stressed, the bores in critical areas are susceptible to deformation and wear over time. If the maintenance is not carried out in time, the performance of the large engineering equipment is gradually reduced, so that the large engineering equipment cannot be used.

However, in the process of maintenance of large engineering equipment, how to repair damaged bored holes is a technical problem; the large-scale engineering equipment is extremely large in size, the cost for repairing the large-scale engineering equipment is huge if the large-scale engineering equipment is transported back to a manufacturer, the time is too long, and the utilization rate of the equipment is reduced. Therefore, it is necessary to choose to perform the maintenance at the site or at a nearby mechanical maintenance facility.

At present, the damaged bore is repaired in most cases in China in a manual manner, but the manual repair does not have a unified, accurate, time-saving and economical repair method. That is to say, not only the manual mode maintenance is long, and the precision is low moreover for the bore hole life-span after the restoration is limited, and the performance of the equipment of being maintained can not reach the level of leaving the factory.

To overcome this phenomenon, companies such as Climax Portable Machine Tools inc, usa, York Portable Machine Tools, canada, have developed Portable automatic hole boring machines (US 7,770,498B 2) and bore welding machines (US12573113) to enable automated servicing of holes on-site or nearby. The technology has been applied and developed in developed countries for twenty years, and China currently belongs to a simulation stage.

However, the boring machine and the boring and welding machine produced by the companies are widely designed in a separated and independent mode, the assembling and disassembling process is complicated and has repeatability, and the repairing precision is influenced.

SUMMERY OF THE UTILITY MODEL

In order to overcome the above problem, the utility model aims at providing a portable modularization bore hole processingequipment adopts the modularized design, and the mechanism retrencies, makes boring machine and boring welding machine become this processingequipment's a part, and the suitability is strong, can install directly to carry out the restoration operation on the work piece, need not repeated loading and unloading and can realize carrying out the modularization bore hole automatic processing apparatus that multiple processing handled to the bore hole.

In order to achieve the above purpose, the technical scheme of the utility model is as follows:

the utility model provides a portable modularized boring processing device; the boring device comprises a feeding bracket module, a boring processing module, a boring bracket matching module and a boring bar or welding bar module; a boring processing module comprising a coaxial boring bar driver with a coupling bracket, a vertical boring bar driver and a single axis welding bar driver; the feeding bracket module is used for controlling the axial movement of the boring bar or the welding bar and a corresponding driver thereof and comprises a sliding unit, a fixing unit and a rotary driving unit; the coaxial boring bar driver, the vertical boring bar driver or the single-shaft welding bar driver are fixedly connected to the sliding unit of the feeding bracket module through the coupling bracket, the fastener, the slotted chuck or the slotless bush; the boring bracket matching module consists of a boring bar fixing head, a welding plate for the fixing head fixedly connected with the boring bar fixing head, a boring bar fixing tail, a welding plate for the fixing tail fixedly connected with the boring bar fixing tail and a welding rod; the fixed head and the fixed tail are concentrically arranged with a workpiece to be processed, and the fixed head and the workpiece to be processed are welded together by a welding plate through a welding rod; the welding plate for the fixing tail is welded with the workpiece to be processed through a welding rod; the feeding bracket module is fixed on a boring bar fixing head in the boring bracket matching module through a fixing unit of the feeding bracket module;

when a boring processing technology is carried out, the boring bar is inserted into the boring bar fixing tail from the boring bar fixing head and is coaxially arranged with the boring hole; the boring bar is fixedly connected with the coaxial boring bar driver or the vertical boring bar driver by using a fastener, a slotted chuck or a slotless bush, wherein a ball bearing is embedded in the boring bar fixing head and the boring bar fixing tail so as to bear the boring bar to rotate along with the coaxial boring bar driver or the vertical boring bar driver, and the coaxial boring bar driver or the vertical boring bar driver is driven by the rotation driving unit; or when the welding processing technology is carried out, the welding rod is fixedly connected with a single-shaft welding rod driver, the welding rod is inserted from the fixed tail of the boring rod, the welding rod moves and is positioned along with the single-shaft welding rod driver, and the single-shaft welding rod driver is driven by the rotary driving unit.

Preferably, the boring processing module further comprises an internal boring groove processing driver and a face washing driver which realize the biaxial control of the axial and rotary motion of the boring bar or the welding bar.

Preferably, the sliding unit of the feed carriage module further comprises: the device comprises a ball screw, a transmission gear set and a feed driving unit; the feed driving unit drives the transmission gear set and the ball screw to control the axial movement of the boring bar or the welding bar arranged on the sliding unit.

Preferably, the feed carriage module further comprises: and a rotation driving unit provided on the feeding bracket module, the rotation driving unit being in charge of controlling the rotation motion of the boring bar driver when the boring bar driver or the welding bar driver is mounted on the boring bracket mating module.

Preferably, the portable modular boring device further comprises a concentric cone, wherein when the boring rod is inserted into the boring hole of the workpiece to be processed, the boring rod is positioned in the coaxial boring hole of the workpiece to be processed through the concentric cone; and after the welding plate for the fixing tail and the workpiece to be processed are welded together by welding rods, the concentric cone is automatically removed by sliding along with the extraction of the boring bar.

Preferably, the fixed head of the boring bar is fixedly connected with the welding plate for the fixed head, and the fixed tail of the boring bar is fixedly connected with the welding plate for the fixed tail through a fastener.

Preferably, the sliding unit includes a fastener, a slotted collet or a slotless bushing for reinforcing or loosening the coupling bracket of the boring treatment module; the boring processing module is fixedly connected with the boring bar or the welding bar through a fastener, a slotted chuck or a slotless bush.

Preferably, the device also comprises a controller module which is arranged on the feeding bracket module, consists of a graphic display, a thin film switch panel and a communication circuit and controls the feeding bracket module and the boring processing module to axially and rotationally move the boring bar or the welding rod.

According to the above technical scheme, the utility model provides an automatic accurate bore hole processingequipment of portable modularization has following beneficial effect:

the modularized automatic boring treatment device has a simplified mechanism and can realize various processing treatments on the boring without repeated loading and unloading.

②, the disassembly is convenient, the biggest portable boring processing equipment manufacturers in the world at present need a Climax boring series machine and a boring and welding series machine, a deep technician needs at least 27 minutes to install the boring machine, needs more than 20 minutes to disassemble the boring machine, needs 31 minutes to install the boring and welding machine, and takes nearly 90 minutes in total.

And the utility model relates to a modularization boring treatment facility of production has simplified partial installation and dismantlement procedure, has practiced thrift assemble duration, makes whole flow compression to 40 minutes, and the machining precision improves to some extent.

compared with the portable automatic boring machine and the boring welder produced by other companies, the device has the characteristics of less operation steps, short processing period and high processing precision.

Drawings

FIG. 1 is the utility model discloses the assembly structure sketch map of the automatic accurate bore hole processingequipment of portable modularization

FIG. 2 is the utility model discloses feed bracket module among the automatic accurate bore hole processingequipment of portable modularization looks sideways at the cross-sectional view

FIG. 3 is a side view of the feed bracket module in the portable modular automatic precision boring apparatus of the present invention

FIG. 4 is a side view of the feeding bracket module in the portable modular automatic precision boring device of the present invention

FIG. 5 is the utility model discloses feed bracket module rear view among the automatic accurate bore hole processingequipment of portable modularization

FIG. 6 is the front view of the coaxial boring bar driver in the portable modular automatic precise boring device of the present invention

FIG. 7 is a side view of the coaxial boring bar driver in the portable modular automatic precision boring device of the present invention

FIG. 8 is the utility model discloses perpendicular boring bar driver top view among the automatic accurate bore hole processingequipment of portable modularization

FIG. 9 is a side view of the vertical boring bar driver in the portable modular automatic precision boring device of the present invention

FIG. 10 is the utility model discloses a unipolar welds pole driver top view among the automatic accurate bore hole processingequipment of portable modularization

FIG. 11 is the utility model discloses a unipolar welds pole driver side view among the automatic accurate bore hole processingequipment of portable modularization

FIG. 12 is the utility model discloses a bore hole bracket cooperation module schematic diagram among the automatic accurate bore hole processingequipment of portable modularization

Detailed Description

Embodiments that embody features and advantages of the present invention will be described in detail in the description of the later sections. It is to be understood that the invention is capable of various modifications in various embodiments without departing from the scope of the invention, and that the description and drawings are to be regarded as illustrative in nature, and not as restrictive.

The portable modular boring device and the installation method thereof according to the present invention will be described in detail with reference to fig. 1 to 7.

Referring to fig. 1, fig. 1 is an assembly structure diagram of the portable modular automatic precise boring device of the present invention. As shown in fig. 1, the apparatus includes a feed carriage module 1.0, a boring treatment module 2.0, a boring carriage mating module 3.0, a control module 4.0, and a boring bar 5.0 or welding bar module 6.0 to complete the integrated treatment of boring. Wherein, for example, the boring bar 5.0 can be a 1000 mm boring bar 5.1 or a 1500 mm boring bar 5.2 or other dimensions (not shown), and the welding bar 6.0 can be a 60 mm welding bar 6.1 or a 175 mm welding bar 6.2 or other dimensions (not shown).

It should be noted that in the embodiments of the present invention, in order to realize the modularization of the portable boring device, the feeding bracket module 1.0 of the present invention is generally used as a basic module, and the boring processing module 2.0 includes a plurality of drivers as optional components to realize the axial and rotational motion control of the boring bar or welding bar 5.0 fixed in the boring bracket matching module 3.0.

Specifically, in order to adapt to different processing tasks, the boring processing module 2.0 may be equipped with a boring bar driving unit or a welding bar rotation driving unit; for example, the boring bar drive unit may be a coaxial boring bar drive 2.1 or a vertical boring bar drive 2.2 as shown in fig. 1; the welding rod rotation drive unit may be a single axis welding rod driver 2.3 as shown in fig. 1.

When the feed carriage module 1.0 is combined with the shown coaxial boring bar driver 2.1 or vertical boring bar driver 2.2, cutting functions such as boring and chamfering can be realized; when the feed bracket module 1.0 is combined with the welding rod rotary driver, the functions of circumferential welding, section welding, skip welding and the like of the boring hole can be realized.

Further, the feed carriage module 1.0 may also be combined with other modules, i.e., the boring treatment module 2.0 may also include other modules to perform other treatment functions for boring; for example, the boring processing module 2.0 may also include an boring internal groove machining driver (not shown) and a face washing driver (not shown) and the like that implement axial and rotational biaxial motion control of the boring bar or the welding bar.

Referring to fig. 2 and 3, fig. 2 is a cross-sectional view of a feeding bracket module in the portable modular automatic precision boring device of the present invention, and fig. 3 is a side view of the feeding bracket module in the portable modular automatic precision boring device of the present invention. As shown in fig. 2, the feeding bracket module 1.0 for controlling the axial movement of the boring bar 5.1 or the welding bar 5.2 comprises a sliding unit 1.1, a fixing unit 1.2 and a rotary driving unit 1.5; the boring treatment module 2.0 is fastened by its coupling bracket to the sliding unit 1.1 on the feed carriage module 1.0.

Specifically, please refer to fig. 4, 5, 6, 7, 8, 9, 10 and 11, in which fig. 4 is a side view of a feeding bracket module in the portable modular automatic precise boring device of the present invention, and fig. 5 is a rear view of the feeding bracket module in the portable modular automatic precise boring device of the present invention; fig. 6 is a front view of the coaxial boring bar driver in the portable modular automatic precise boring device of the present invention, and fig. 7 is a side view of the coaxial boring bar driver in the portable modular automatic precise boring device of the present invention; fig. 8 is the utility model discloses vertical boring bar driver side view among the automatic accurate bore hole processingequipment of portable modularization, fig. 9 is the utility model discloses vertical boring bar driver side view among the automatic accurate bore hole processingequipment of portable modularization.

For convenience of description, in this embodiment, a combination relationship between the boring processing module 2.0 and the feeding bracket module 1.0 is described in detail by taking the coaxial boring bar driver 2.1 in the boring processing module 2.0 as an example, and the combination manner of other drivers in the boring processing module 2.0 is basically the same, and is not repeated herein.

As shown in fig. 4, 5, 6 and 7, the slide unit 1.1 includes a fastener 1.11; the coaxial boring bar drive 2.1 is connected to the sliding unit 1.1 of the feed carriage module 1.0 via a coupling bracket 2.11 and is fastened with a fastening element 1.11 and is then positioned by means of a fastening element 2.12 or a seamless bushing in the coaxial boring bar drive 2.1. In other embodiments of the present invention, a slotted collet or a grooveless bushing may be used instead of fastener 1.11 to achieve the fastening function.

The user can tighten or loosen the coaxial boring bar drive 2.1 by adjusting the fastening 1.11 on the sliding unit 1.1. If the coaxial boring bar driver 2.1 needs to be replaced by another driver in the boring processing module 2.0, the screw nut 1.11 in the sliding unit 1.1 is loosened, the coaxial boring bar driver 2.1 is taken out, and the vertical boring bar driver 2.2 (shown in fig. 8 and 9) or the single-shaft welding bar driver 2.3 is installed and replaced by the same manner as described above.

As shown in fig. 10 and 11, the single-axis welding rod driver 2.3 can also be connected to the slide unit 1.1 by means of a coupling bracket 2.31, i.e. by means of fasteners 1.11 on the slide unit 1.1 to the feed carriage module 1.0 and positioned with fasteners 2.12 or seamless bushings. After completing a boring operation, the user can replace the next boring module and begin a new operation by simply loosening a pair of fasteners 1.11 on the feed carriage slide unit without disassembling the boring carriage mating module 3.0, the feed carriage module 1.0, and the controller 4.0.

In some preferred embodiments of the present invention, as shown in fig. 2 and 3, a screw sleeve 1.13 is attached inside the sliding unit 1.1, and the screw sleeve 1.13 is engaged with the ball screw 1.3. The ball screw 1.3 is connected with the follower gear 1.43 for the screw rod by key position positioning.

The feed drive unit 1.6 may be a feed servomotor. In the embodiment, the feeding servo motor 1.6 is provided with a proper ball screw 1.3 and a transmission gear set 1.4, so that the axial movement of the boring processing module is driven and controlled. The feeding driving unit 1.6 is arranged in the feeding bracket module 1.0, and the servo motor 1.6 is connected with the driving gear 1.41 by key location. When the servo motor 1.6 works, the driving gear 1.41 is meshed with the follow-up gear 1.42 and drives the follow-up gear 1.42; the movable follow-up gear 1.42 is meshed with the follow-up gear 1.43 for the ball screw, and drives the follow-up gear 1.43 for the ball screw, so that the feeding action of the sliding unit 1.1 and the boring driving module 2.0 arranged on the sliding unit is realized.

Please refer to fig. 12, fig. 12 is a schematic diagram of a structure of a boring bracket cooperating with a module in the portable modular automatic precise boring device according to the present invention. As shown in fig. 12, the boring bracket mating module 3.0 is composed of a boring bar fixing head 3.1, a boring bar fixing tail 3.3, a welding plate for fixing head 3.2, a welding plate for fixing tail 3.4, and a welding rod 3.5. Wherein, the fixed head 3.1 and the fixed tail 3.3 are concentrically arranged with the workpiece to be processed, and the fixed head and the workpiece to be processed are welded together by a welding rod 3.5 through a welding plate 3.2; the fixed tail welding plate 3.4 and the workpiece to be processed are welded together through a welding rod 3.5.

In the embodiment, the boring bar fixing head 3.1 and the fixing head are fixedly connected by four pairs of bolt and nut through the welding plate 3.2; the boring bar fixing tail 3.3 and the welding plate 3.4 for the fixing tail are also connected and fixed by four pairs of bolts and nuts. After the boring bar fixing head 3.1 and a workpiece to be processed are concentrically arranged, a welding plate 3.2 for the fixing head and the workpiece to be processed are welded together by a welding rod 3.5; similarly, after the fixing tail 3.3 and the workpiece to be processed are concentrically arranged, a welding plate 3.4 for the fixing tail and the workpiece to be processed are welded together by using a welding rod, wherein ball bearings with the same inner diameter as that of the boring bar 5.0 or the welding bar 6.0 are embedded in the boring bar fixing head 3.1 and the boring bar fixing tail 3.3, and the two ball bearings can simultaneously support the weight of the boring bar 5.0 or the welding bar 6.0.

The rotary motion control of the coaxial boring bar driver 2.1, the vertical boring bar driver 2.2 and the single-shaft welding bar driver 2.3 can be realized by a rotary drive unit 1.5 in the feed carriage module 1.0.

Before a boring processing technology is carried out, a boring bar 5.0 can be coaxially placed with a boring hole by means of a concentric cone (not shown) and a boring bracket matching module 3.0, the boring bar 5.0 is inserted into a boring bar fixing head 3.1 from a boring bar fixing tail 3.3, and the boring bar 5.0 is fixedly connected with a coupling bracket 2.11 of a coaxial boring bar driver 2.1 by using a fastener, a slotted chuck or a slotless bush, wherein ball bearings embedded in the boring bar fixing head 3.1 and the boring bar fixing tail 3.3 are used for bearing the boring bar 5.0 to rotate along with the boring bar driver 2.1, and the coaxial boring bar driver 2.1 is driven by a rotation driving unit.

When the welding process is carried out, the welding rod 6.0 is fixedly connected with the single-shaft welding rod driver 2.3, the welding rod 6.0 is inserted from the boring rod fixing head 3.1, and the welding rod 6.0 moves and is positioned along with the single-shaft welding rod driver 2.3.

The machining tool can be placed and fixed on the boring bar 5.0. The feed carriage module 1.0 is fixed by its fixing unit on the boring bar fixing head in the boring carriage mating module 3.0.

The boring bracket matching module 3.0 is concentrically sleeved on a fixing head 3.1 in the boring bracket matching module 3.0 through a fixing unit 1.2 on a feeding bracket module 1.0, and a supporting seat of the fixing unit 1.2 is fastened by a fastening piece 1.21 so as to achieve the purpose of extrusion matching.

The boring bracket can be matched with the module 3.0, and meanwhile, the coaxial installation of the feeding bracket module 1.0, the boring processing module 2.0 and the boring bar welding rod module 5.0 can be guaranteed.

The assembly of the boring processing module 2.0 and the boring bar 5.0 or the welding bar 6.0 can be determined according to the selected conditions of the coaxial boring bar driver 2.1, the vertical boring bar driver 2.2 and the single-shaft welding bar driver 2.3, and the specific assembly relationship is as follows:

①, when the coaxial boring bar driver 2.1 is matched, the coaxial boring bar driver 2.1 is connected and fixed with the boring bar 5.0 by the adjusting screw 2.12.

and secondly, when the vertical boring bar driver 2.2 is matched, the vertical boring bar driver 2.2 is connected and fixed with the boring bar 5.0 by the positioning pin 2.12.

and thirdly, the single-shaft welding rod driver 2.3 is matched and connected with and fixed on the welding rod 6.0 by using a fastener or a seamed chuck on the coupler 2.31.

Furthermore, the utility model discloses a portable bore hole processingequipment of modularization is still including installing controller module 4.0 on feeding bracket module 1.0, and controller module 4.0 comprises graphic display, film switch panel and communication circuit, and control feeding bracket module 1.0 and bore hole processing module 2.0 drive boring bar 5.0 or weld 6.0 axial motion and rotary motion of pole.

The controller module 4.0 is connected to the rear of the feed carriage module 1.0 by cables.

In summary, the feed carriage module 1.0, the boring bar driving module 2.0, the boring carriage matching module 3.0, the controller 4.0 and the boring bar welding module 5.0 are matched to complete the modularization and automation of the installation of the portable boring processing device.

The embodiment of the utility model provides an in, still include the mounting method of the portable bore hole processingequipment of a modularization for the processing that has at least a pair of coaxial center bore hole on the work piece of treating, it can include following step:

step S1: inserting a boring bar into a boring hole of a workpiece to be processed, and enabling the boring bar to be positioned in the boring hole which is coaxial with the workpiece to be processed through a concentric cone;

step S2: the boring bar fixing head and the welding plate for the fixing head fixedly connected with the boring bar fixing head, and the boring bar fixing tail and the welding plate for the fixing tail fixedly connected with the boring bar fixing tail are respectively inserted from two ends of a boring hole, and the fixing head and the fixing tail are concentrically arranged with a workpiece to be processed;

step S3: welding the fixed head welding plate and the workpiece to be processed together by a welding rod; welding the fixed tail welding plate and the workpiece to be processed together by welding rods;

step S4: the boring bar is drawn out, and the concentric cone automatically slides and is removed;

step S5: the boring bracket matching module is fixedly connected to the fixing unit on the feeding bracket module through a boring rod fixing head of the boring bracket matching module; if the boring bar operation is performed, performing step S6; if the welding rod operation is performed, performing step S7;

step S6: the sliding unit on the feeding bracket module is fixedly connected with a coupling bracket of a boring bar driver, the boring bar is inserted into a boring bar fixing head from a boring bar fixing tail, and the boring bar is fixedly connected with the boring bar driver with the coupling bracket, wherein ball bearings are embedded in the boring bar fixing head and the boring bar fixing tail so as to bear the boring bar or the welding bar to perform rotary motion along with the boring processing module;

step S7: the welding rod is fixedly connected with a coupling bracket of the single-shaft welding rod driver, the welding rod is inserted from the boring rod fixing head, and the welding rod rotates along with the single-shaft welding rod driver.

It should be noted that, in the embodiment of the present invention, since the diameter of the welding rod is generally smaller than that of the bore rod, the welding rod is not received in the ball bearing embedded in the boring rod fixing head and the boring rod fixing tail. Fine adjustment can be performed by the feed carriage module in order to mount the welding rod in place; similarly, the feed carriage module can be used for fine adjustment in order to mount the tool on the bore rod in place.

In this embodiment, step S5 specifically includes:

step S51: selecting a driver in the boring processing module according to the operation requirement of a workpiece to be processed; the boring processing module comprises a coaxial boring bar driver, a vertical boring bar driver, a single-shaft welding bar driver, an internal boring groove processing driver for realizing the axial and rotary motion double-shaft control of the boring bar or the welding bar and a surface washing driver;

step S52: a sliding unit fixedly connecting the coupling bracket of the selected boring treatment module to the feed carriage module with a fastener, a slotted chuck or a slotless bush;

step S53: the transmission gear set and the ball screw in the feeding driving unit are matched with the sliding unit to control the axial positioning movement of the boring processing module placed on the sliding unit.

The above embodiments are only provided to limit the scope of the present invention, and therefore all the equivalent structural changes made in the description and drawings of the present invention should be included in the scope of the present invention.

Claims (8)

1. A portable modular boring device; the device is characterized in that the device realizes the integrated function of the boring machine and the boring and welding machine through a modular combined structure, and comprises the following components:

a boring processing module comprising a coaxial boring bar driver with a coupling bracket, a vertical boring bar driver and a single axis welding bar driver;

the feeding bracket module is used for controlling the axial movement of the boring bar or the welding bar and a corresponding driver thereof and comprises a sliding unit, a fixing unit and a rotary driving unit;

the coaxial boring bar driver, the vertical boring bar driver or the single-shaft welding bar driver are fixedly connected to the sliding unit of the feeding bracket module through the coupling bracket, the fastener, the slotted chuck or the slotless bush;

the boring bracket is matched with a module and consists of a boring bar fixing head, a welding plate for the fixing head fixedly connected with the boring bar fixing head, a boring bar fixing tail, a welding plate for the fixing tail fixedly connected with the boring bar fixing tail and a welding rod; the fixed head and the fixed tail are concentrically arranged with a workpiece to be processed, and the fixed head and the workpiece to be processed are welded together by a welding plate through a welding rod; the welding plate for the fixing tail is welded with the workpiece to be processed through a welding rod; the feeding bracket module is fixed on a boring bar fixing head in the boring bracket matching module through a fixing unit of the feeding bracket module;

when a boring processing technology is carried out, the boring bar is inserted into the boring bar fixing head from the boring bar fixing tail and is coaxially arranged with the boring hole; the boring bar is fixedly connected with the coaxial boring bar driver or the vertical boring bar driver by using a fastener, a slotted chuck or a slotless bush, wherein a ball bearing is embedded in the boring bar fixing head and the boring bar fixing tail so as to bear the boring bar to rotate along with the coaxial boring bar driver or the vertical boring bar driver, and the coaxial boring bar driver or the vertical boring bar driver is driven by the rotating driving unit;

or,

when the welding process is carried out, the welding rod is fixedly connected with a single-shaft welding rod driver, the welding rod is inserted from the boring rod fixing head, the welding rod moves and is positioned along with the single-shaft welding rod driver, and the single-shaft welding rod driver is driven by the rotary driving unit.

2. The portable modular boring device of claim 1, wherein the boring treatment module further comprises an inside bore groove machining driver and a face wash driver that enable bi-axial and rotational motion control of a boring or welding rod.

3. The portable modular boring apparatus of claim 1, wherein the sliding unit of the feed carriage module further comprises: the device comprises a ball screw, a transmission gear set and a feed driving unit; the feed driving unit drives the transmission gear set and the ball screw to control the axial movement of the boring bar or the welding bar arranged on the sliding unit.

4. The portable modular boring apparatus of claim 1, wherein the feed carriage module further comprises: and a rotation driving unit provided on the feeding bracket module, the rotation driving unit being in charge of controlling the rotation motion of the boring bar driver when the boring bar driver or the welding bar driver is mounted on the boring bracket mating module.

5. The portable modular boring device of claim 1, further comprising a concentric cone that ensures coaxial mounting of the feed carriage module, the bore treatment module, and the bore carriage mating module for positioning the boring bar in a bore coaxial with the workpiece to be treated by the concentric cone when the boring bar is inserted into the bore of the workpiece to be treated; and after the welding plate for the fixing tail and the workpiece to be processed are welded together through a welding rod, the concentric cone is automatically removed in a sliding manner along with the extraction of the boring rod.

6. The portable modular boring device of claim 1, wherein the fastening of the boring bar fixing head to the fixing head by a welding plate and the fastening of the boring bar fixing tail to the fixing tail by a welding plate are fastened by fasteners.

7. The portable modular boring apparatus of claim 1, wherein the sliding unit comprises a fastener, a slotted collet, or a grooveless bushing on a coupling bracket for reinforcing or loosening the boring treatment module; the boring processing module is fixedly connected with the boring bar or the welding bar through a fastener, a slotted chuck or a slotless bush.

8. The portable modular boring apparatus of claim 1, further comprising a controller module mounted on the feed carriage module, the controller module comprising a graphic display, a membrane switch panel and a communication circuit, the controller module controlling the feed carriage module and the boring treatment module to move the boring bar or welding rod axially and rotationally.