CN114905287A - Lightweight mobile power supply vehicle partition wall machining device and combination method thereof - Google Patents

Abstract

The invention discloses a light-weight mobile power supply vehicle partition wall processing device and a combination method thereof, and the device comprises a processing box body and a square pipe processed by the processing box body, wherein the square pipe is provided with a vertical square pipe and a horizontal square pipe, the processing box body is provided with a first supporting plate penetrating through two side walls of the processing box body, the joint of the first supporting plate and the two side walls of the processing box body is respectively provided with a first opening and a second opening, an arc-shaped material receiving groove is arranged below the first supporting plate, a first material receiving groove is arranged below the arc-shaped material receiving groove, the side walls of the arc-shaped material receiving groove and the first material receiving groove are provided with folding doors, and one end of the first supporting plate is provided with a rectangular extrusion groove. The invention has the beneficial effects that: compact structure, alleviate workman working strength, improve the machining efficiency of square pipe, prevented the deformation that produces in the square pipe drilling.

Description

Lightweight mobile power supply vehicle partition wall machining device and combination method thereof

Technical Field

The invention relates to the technical field of mobile power vehicles, in particular to a light-weight mobile power vehicle partition wall machining device and a combination method thereof.

Background

The mobile power supply vehicle is a special vehicle provided with a power supply device, and can be used for installing a power cylinder set (mobile energy storage vehicle), a diesel generator set or a gas generator set and the like. The portable power source vehicle can be used for generating electricity, overhauling equipment, meeting guarantee, field operation and the like. When the emergency power supply is not used at ordinary times, the emergency power supply can be quickly sent to a destination for emergency power supply.

However, although the existing production method can manufacture the partition wall processing device and the partition wall combination method, the existing production method still has a plurality of defects: 1. in the existing device for processing the partition wall, a square tube in the partition wall is drilled mainly by ascending and descending a rotary cutter on a milling machine, but because the table top of the milling machine easily causes that an operator holds the square tube with one hand and operates a drilling cutter with the other hand to drill the square tube, an inclination angle is easily generated in the holding process, and the processing precision is not high. 2. The existing milling machine needs to bend the two ends of the square pipe after the square pipe is drilled, and the square pipe is directly placed on another worker for operation and treatment after direct drilling is completed, so that the working procedures are increased, and the machining efficiency is reduced. 3. The existing square pipe is easy to bend due to the vertical force of drilling in the processing process, so that the transverse square pipe and the vertical square pipe which are spliced at the back are influenced. 4. The existing square tube is directly placed on a bending machine to be bent in the bending process, and the bending bulge is arranged on the bending machine, so that the problem that the bending angle precision is not high easily in the bending process is solved.

Based on the technical defects, a light mobile power supply vehicle partition wall processing device and a combination method thereof are urgently needed.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides a light-weight mobile power supply vehicle partition wall processing device and a combination method thereof, wherein the device is compact in structure, reduces the working strength of workers, improves the processing efficiency of a square tube and prevents deformation generated in drilling of the square tube.

The purpose of the invention is realized by the following technical scheme: a light-weight mobile power supply vehicle partition wall machining device comprises a machining box body and a square pipe processed by the machining box body, wherein the square pipe is provided with a vertical square pipe and a horizontal square pipe, a first supporting plate penetrating through two side walls of the machining box body is arranged on the machining box body, a first opening and a second opening are formed in the joints of the first supporting plate and the two side walls of the machining box body respectively, an arc-shaped material receiving groove is formed below the first supporting plate, a first material receiving groove is formed below the arc-shaped material receiving groove, folding doors are arranged on the side walls of the arc-shaped material receiving groove and the first material receiving groove, and a rectangular extrusion groove is formed in one end of the first supporting plate;

the square tube processing device is characterized in that an extrusion device is arranged above the rectangular extrusion groove, scale marks are arranged on two sides of the rectangular extrusion groove, a jacking device is arranged inside the square tube and comprises a jacking cross rod, the jacking cross rod is connected through a connecting screw rod, a vertical thread through hole and a transverse thread through hole are arranged on the jacking cross rod, a first supporting leg and a second supporting leg are arranged on the bottom of the processing box body, the square tube is placed on the first supporting plate, an end cover is arranged on the top of the processing box body, a dovetail groove is arranged on the end cover, a drilling device is arranged on the dovetail groove and comprises a supporting rod and a second box body arranged on the supporting rod, a liftable supporting plate is arranged inside the second box body, a first small-sized hydraulic expansion cylinder is arranged on the second supporting plate, a first small-sized hydraulic expansion cylinder is arranged below the second supporting plate, and the first small-sized hydraulic expansion cylinder and the second small-sized hydraulic expansion cylinder are arranged in a staggered manner, so that they do not interfere with each other during operation.

In the light-weight mobile power supply vehicle partition wall processing device, the vertical square tube is provided with a first vertical square tube, a second vertical square tube, a third vertical square tube, a fourth vertical square tube and a fifth vertical square tube, the transverse square tube is provided with a first transverse square tube, a second transverse square tube, a third transverse square tube and a fourth transverse square tube, the first vertical square tube, the second vertical square tube, the first transverse square tube and the second transverse square tube form a partition wall assembly, the two ends of the first vertical square tube, the second vertical square tube, the third vertical square tube, the fifth vertical square tube, the first transverse square tube, the second transverse square tube, the third transverse square tube and the fourth transverse square tube are respectively provided with a clamping groove and a clamping block which are formed by bending through an extruding device, the square tubes are respectively provided with an electrophoresis hole, and the square tubes are internally of a hollow structure.

In the light-weight mobile power supply vehicle partition wall processing device, the first support plate is provided with the blind hole threads, the blind hole threads are provided with the detachable first clamping device and the fixed second clamping device, the detachable first clamping device comprises the T-shaped fixed rod, the T-shaped fixed rod comprises the transverse section and the vertical section, the vertical section is the telescopic section, the transverse section is provided with the threaded through hole, the threaded through hole is provided with the puller bolt, the end part of the puller bolt is provided with the plum-blossom tightening head, one side of the rectangular extrusion groove is provided with the limiting block and the blind hole threads, and the limiting block is fixed with the blind hole threads through the bolt, so that the limiting block can be moved randomly.

In the light-weight mobile power supply vehicle partition wall processing device, one end of the rectangular extrusion groove is provided with the vertical compression plate, and the right side wall of the vertical compression plate and the left side wall of the rectangular extrusion plate are positioned on the same straight line, so that the bent part of the square pipe can be a right angle; the clamping tool apron is arranged below the first small motor, the clamping tool apron is fixedly connected with an output shaft of the first small motor, the clamping tool apron is clamped below the first small motor through the first clamping bolt, the first clamping bolt is provided with the pressing plate, the pressing plate is rotatably connected with the first clamping bolt, the pressing plate is arranged at the end of the pressing plate and comprises a pressing block, a pressing sponge is arranged at the end of the pressing block, and the pressing sponge is connected with the pressing plate through a plurality of springs.

In the light-weight mobile power supply vehicle partition wall machining device, the jacking cross rod is provided with a first jacking cross rod, a second jacking cross rod, a third jacking cross rod and a fourth jacking cross rod, the middle part of the connecting screw rod is provided with the tightening head, the two ends of the tightening head are respectively provided with the forward threads and the reverse threads, the length of the jacking cross rod is 5 cm-17.15 cm, the jacking devices are provided with a plurality of groups, the length of the connecting screw rod is 40mm-100mm, the connecting screw rod can be observed and placed through an electrophoresis hole when a single jacking device is installed, and the first jacking cross rod, the second jacking cross rod, the third jacking cross rod and the fourth jacking cross rod can be combined with the connecting screw rod outside the square tube in a matched mode.

In the light-weight mobile power supply vehicle isolation wall processing device, the isolation wall assembly further comprises an access door, a first sealing plate, a second sealing plate, a third sealing plate and an exhaust guide pipe assembly, the access door is arranged between the first vertical square pipe and the third vertical square pipe, the first sealing plate is arranged between the third vertical square pipe and the fourth vertical square pipe, the second sealing plate is arranged between the third vertical square pipe and the fourth vertical square pipe, the third sealing plate is arranged between the fifth vertical square pipe and the second vertical square pipe, a 50kw unit is arranged beside the exhaust guide pipe assembly, a through hole with the diameter of 78mm is formed in the exhaust guide pipe assembly, and the distance from the through hole to the first horizontal square pipe is 210 mm.

In the light-weight mobile power supply vehicle partition wall processing device, the lengths of the transverse square tube I and the transverse square tube II are 17.7cm, the lengths of the vertical square tube IV and the vertical square tube V are smaller than those of the vertical square tube I, the vertical square tube II and the vertical square tube III, the lengths of the transverse square tube III and the transverse square tube IV are smaller than those of the transverse square tube I and the transverse square tube II, electrophoresis is required after the transverse square tube and the vertical square tube are processed, and assembly welding is required after clamping is finished after electrophoresis is finished.

In the light-weight mobile power supply vehicle partition wall machining device, the first detachable clamping device is arranged on the left side of the second fixed clamping device, the second fixed clamping device is arranged on two sides of the first supporting plate, a plurality of blind hole threads which are matched with the first detachable clamping device are arranged on the first supporting plate and are distributed in the middle and two ends of the first supporting plate, the bottom of the rectangular extrusion groove is provided with through holes, and machining through holes are formed in a top cover of a machining box body.

In the combination method of the light-weight mobile power supply vehicle partition wall processing device, the invention comprises the following steps:

s1, the processing method of the square tube specifically comprises the following steps:

s11, placing the square tubes to be processed on a first support plate in sequence, and fixing the square tubes on the first support plate through a first detachable clamping device; then, the square pipe on the mark is processed and drilled by controlling the drilling device according to the use requirement of the square pipe to be processed;

s12, after the through hole is processed on the square tube, the limiting block on the right side is adjusted, so that the bent square tube can be bent and placed under the action of the limiting plate;

s13, bending the end part of the square tube through a hydraulic telescopic cylinder, and performing electrophoresis treatment on the bent square tube;

s2, a method for combining square tubes, which comprises the following steps;

s21, after the transverse square tube and the vertical square tube are connected in sequence, the connecting part is welded through a fillet block at the moment:

and S22, after the strong isolation assembly frame is formed after the welding treatment is finished, sequentially welding and connecting the first sealing plate, the second sealing plate and the third sealing plate, thereby forming a complete isolation wall assembly.

The invention has the following advantages:

1. according to the processing box body and the separation wall assembly formed by splicing the square pipes after the processing box body is processed, the first supporting plate is arranged inside the processing box body, the first arc-shaped collecting groove and the first collecting groove are formed below the first supporting plate, so that waste residues on the pipes behind drilled holes can be collected, and the first detachable clamping device and the second fixed clamping device which are arranged on the first supporting plate can fix the square pipes while normal left-right sliding of the square pipes is not influenced.

2. According to the isolation wall assembly, the isolation wall assembly comprises a plurality of transverse square tubes and vertical square tubes which are clamped and welded, a plurality of welded sealing plates are arranged in a space formed between the transverse square tubes and the vertical square tubes, the sealing plates can reduce the weight of the isolation wall assembly, meanwhile, the isolation wall can be easily welded and combined, the waste of traditional iron plate materials is reduced, and the isolation wall assembly can be conveniently transferred.

3. According to the invention, the rectangular extrusion groove is formed in the first support plate, the scale marks are arranged on two sides of the rectangular extrusion groove, the limiting block is arranged on the rectangular extrusion groove, and the limiting block is matched with the scale marks, so that when a square pipe is drawn, one end of the square pipe can be propped against, the bent part can be rapidly measured, and the accuracy of the bending length is ensured.

4. According to the partition wall assembly, the access door is arranged on the partition wall assembly, and the access door is connected with the first vertical square tube through the 3-inch iron hinge, so that the access door can be fixed while the stability of rotational connection is guaranteed.

Drawings

FIG. 1 is a schematic structural view of a processing box according to the present invention;

FIG. 2 is a schematic view of the structure of the partition wall assembly of the present invention;

FIG. 3 is a schematic structural view of a tightening device according to the present invention;

FIG. 4 is a schematic view of a rectangular extrusion slot according to the present invention;

FIG. 5 is a schematic structural view of a first removable clamping device of the present invention;

FIG. 6 is a schematic view of a three-dimensional frame of the tightening device according to the present invention;

FIG. 7 is a schematic cross-sectional view of a square tube according to the present invention;

FIG. 8 is a schematic structural view of a first clamping bolt of the present invention;

FIG. 9 is a schematic view of the structure at B in FIG. 3;

FIG. 10 is an enlarged view of a portion of FIG. 1 at C;

FIG. 11 is a schematic cross-sectional view taken at D-D in FIG. 2;

FIG. 12 is a schematic cross-sectional view at E-E in FIG. 2;

fig. 13 is a partially enlarged schematic view of fig. 12 at F.

In the drawing, a processing box body 1, a square pipe 2, a first support plate 3, a first opening 4, a second opening 5, an arc-shaped material receiving groove 6, a first material receiving groove 7, a rectangular extrusion groove 8, an extrusion device 9, a jacking device 10, a first jacking cross rod 11, a connecting screw rod 12, a vertical threaded through hole 13, a horizontal threaded through hole 14, a first support foot 15, a second support foot 16, an end cover 17, a dovetail groove 18, a drilling device 19, a support rod 20, a box body 21, a second support plate 22, a first small motor 23, a small hydraulic telescopic cylinder 24, a first vertical square pipe 25, a second vertical square pipe 26, a third vertical square pipe 27, a fourth vertical square pipe 28, a fifth vertical square pipe 29, a first horizontal square pipe 30, a second horizontal square pipe 31, a third horizontal square pipe 32, a fourth horizontal square pipe 33, a first detachable clamping device 34, a second fixed clamping device 35, a T-shaped fixing rod 36, a horizontal section 37, a vertical section 38 and a threaded through hole 39, The device comprises a puller bolt 40, a plum blossom tightening head 41, a limiting block 42, blind hole threads 43, a hydraulic telescopic cylinder II 44, a rectangular extrusion plate 45, a vertical compression plate 46, a clamping tool holder 47, a clamping bolt I48, a compression plate 49, a compression block 50, a compression sponge 51, a puller cross bar II 52, a puller cross bar III 53, a puller cross bar IV 54, a tightening head 55, a sealing plate I56, a sealing plate II 57, a sealing plate III 58, an exhaust duct closing part 59, a through hole 60, a round corner block 61, an iron hinge 62 and an access door 63.

Detailed Description

The invention will be further described with reference to the accompanying drawings, without limiting the scope of the invention to the following:

as shown in figures 1-13, a light-weight mobile power supply vehicle partition wall processing device comprises a processing box body 1 and a square pipe 2 processed and processed by the processing box body 1, wherein the square pipe 2 is provided with a vertical square pipe and a horizontal square pipe, a first supporting plate 3 penetrating through two side walls of the processing box body is arranged on the processing box body 1, square pipes with different lengths are more easily placed at two ends of the convex first supporting plate 3, the problem that the traditional square pipe 2 is directly processed on a milling machine and is inconvenient to place and fix is solved, an opening I4 and an opening II 5 are respectively arranged at the joint of the first supporting plate 3 and the two side walls of the processing box body 1, the feeding and discharging of the square pipe are facilitated due to the arrangement of the opening I4 and the opening II 5, an arc-shaped material receiving groove 6 is arranged below the first supporting plate 3, a material receiving groove I7 is arranged below the arc-shaped material receiving groove 6, and a hinge door (not shown in the figures) is arranged on the side walls of the arc-shaped material receiving groove 6 and the first material receiving groove 7, the processed waste residues can be collected and discharged, and one end of the first support plate 3 is provided with a rectangular extrusion groove 8;

an extrusion device 9 is arranged above the rectangular extrusion groove 8, scale marks 10 are arranged on two sides of the rectangular extrusion groove 8, a jacking device 10 is arranged inside the square pipe 2, the jacking device 10 comprises a jacking cross rod, the jacking cross rod is connected through a connecting screw rod 12, the connecting screw rod 12 is arranged at two ends close to the square pipe 2 according to actual requirements, so that the jacking cross rod can be conveniently lifted, the position can be conveniently observed under the action of an electrophoresis hole, the deformation generated in the drilling process is prevented, vertical thread through holes 13 and transverse thread through holes 14 are arranged on the internal jacking cross rod of the jacking device 10, a supporting leg I15 and a supporting leg II 16 are arranged on the bottom of the processing box body 1, the square pipe 2 is placed on the supporting leg I3, an end cover 17 is arranged on the top of the processing box body 1, a dovetail groove 18 is arranged on the end cover 17, a drilling device 19 is arranged on the dovetail groove 18, the drilling device 19 comprises a supporting rod 20 and a second box body 21 arranged on the supporting rod 20, a second liftable supporting plate 22 is arranged inside the second box body 21, a first small motor 23 is arranged on the second supporting plate 22, a first small hydraulic telescopic cylinder 24 is arranged below the second supporting plate 22, and the first small motor 23 and the second small hydraulic telescopic cylinder 24 are arranged in a staggered mode, so that the two small hydraulic telescopic cylinders can be free from mutual influence in work.

The vertical square tube is provided with a vertical square tube I25, a vertical square tube II 26, a vertical square tube III 27, a vertical square tube IV 28 and a vertical square tube V29, the horizontal square tube is provided with a horizontal square tube I30, a horizontal square tube II 31, a horizontal square tube III 32 and a horizontal square tube IV 33, the vertical square tube I25, the vertical square tube II 26, the horizontal square tube I30 and the horizontal square tube IV 32 enclose a separation wall assembly, so that the separation wall can be freely spliced and combined under the action of the vertical square tubes and the horizontal square tubes with different lengths, the convenience for manufacturing the separation wall is improved, the vertical square tube I25, the vertical square tube II 26, the vertical square tube III 27, the vertical square tube IV 28, the vertical square tube V29, the horizontal square tube I30, the horizontal square tube II 31, the horizontal square tube III 32 and the horizontal square tube IV 33 are respectively provided with a clamping groove and a clamping block which are formed by bending through an extruding device 9, and the square tube 2 is provided with an electrophoresis hole (not shown in the drawing), the square tube 2 has a hollow structure inside.

The first support plate 3 is provided with a plurality of blind hole threads (not shown in the figure), the blind hole threads are provided with a detachable clamping device I34 and a fixed clamping device II 35, the fixed clamping device II 35 is clamped through a bolt and can ensure to keep stable in the bending process, the detachable clamping device I34 comprises a T-shaped fixed rod 36, the T-shaped fixed rod 36 comprises a transverse section 37 and a vertical section 38, the vertical section 38 is a telescopic section, the transverse section 37 is provided with a thread through hole 39, the thread through hole 39 is provided with a puller bolt 40, the end part of the puller bolt 40 is provided with a plum blossom tightening head 41, one side of a rectangular extrusion groove 8 is provided with a limit block 42 and a blind hole thread 43, the limit block 42 is fixed with the blind hole thread 43 through a bolt, so that the limit block can be moved freely, the extrusion device 9 comprises a second hydraulic telescopic cylinder 44, the end part of the second hydraulic telescopic cylinder 44 is provided with a rectangular extrusion plate 45, the arrangement of the first detachable clamping device 34 enables the square pipes 2 with different heights to be fixed, so that the processing stability is improved.

A vertical compression plate 46 is arranged at one end of the rectangular extrusion groove 8, and the right side wall of the vertical compression plate 46 and the left side wall of the rectangular extrusion plate 45 are positioned on the same straight line, so that the bending part of the square pipe 2 can be a right angle; the lower of a small-size motor 23 is equipped with centre gripping blade holder 47, centre gripping blade holder 47 is fixed connection with the output shaft of a small-size motor 23, centre gripping is carried out through a clamping bolt 48 in centre gripping blade holder 47's below, and be equipped with pressure strip 49 on a clamping bolt 48, and pressure strip 49 is rotatable coupling with a clamping bolt 48, including compact heap 50 on pressure strip 49's the tip, and be equipped with on the tip of compact heap 50 and compress tightly sponge 51, and compress tightly and be connected through a plurality of springs between sponge 51 and the pressure strip 49, the stability of chucking has been guaranteed in the mutually supporting between pressure strip 49 and the clamping bolt 48.

The jacking cross rod is provided with a first jacking cross rod 11, a second jacking cross rod 52, a third jacking cross rod 53 and a fourth jacking cross rod 54, the middle of the connecting screw rod 12 is provided with a tightening head 55, two ends of the tightening head 55 are respectively provided with forward threads and reverse threads, the length of the jacking cross rod is 5 cm-17.15 cm, the jacking devices 10 are provided with multiple groups, the length of the connecting screw rod 12 is 40mm-100mm, the connecting screw rod can be observed and placed through electrophoresis holes when a single jacking device 10 is installed, the first jacking cross rod 11, the second jacking cross rod 52, the third jacking cross rod 53, the fourth jacking cross rod 54 and the connecting screw rod 12 are matched with each other and can be combined outside the square pipe 2, and the first jacking cross rod 11, the second jacking cross rod 52, the third jacking cross rod 53 and the fourth jacking cross rod 54 are arranged to enable the stability of the thin-wall square pipe in the machining process.

The partition wall assembly further comprises an access door 63, a first sealing plate 56, a second sealing plate 57, a third sealing plate 58 and an exhaust duct assembly 59, and the access door 55 is arranged between the first vertical square tube 25 and the third vertical square tube 27, and the access door 55 is rotatably connected with the first vertical square tube 25 through a 3-inch iron hinge 62, the access door 63 is arranged to facilitate the replacement of workers, the waste gas is prevented from entering the working cavity, the first sealing plate 56 is arranged between the third vertical square tube 27 and the fourth vertical square tube 28, the second sealing plate 57 is arranged between the third vertical square tube 27 and the fourth vertical square tube 28, the third sealing plate 58 is arranged between the fifth vertical square tube 29 and the second vertical square tube 26, a 50kw machine set is arranged beside the exhaust duct assembly 59, and the exhaust duct assembly 59 is provided with a through hole 60 with the diameter of 78mm, the distance between the through hole 60 and the transverse square pipe 30 is 210mm, and the arrangement of the through hole 60 with the diameter of 78mm ensures that the ventilation requirement can be met.

The length of the first transverse square tube 30 and the second transverse square tube 31 is 17.7cm, the length of the fourth vertical square tube 28 and the fifth vertical square tube 29 is smaller than the length of the first vertical square tube 25, the length of the second vertical square tube 26 and the length of the third vertical square tube 27, the length of the third transverse square tube 32 and the length of the fourth transverse square tube 33 are smaller than the length of the first transverse square tube 30 and the length of the second transverse square tube 31, electrophoresis is needed to be carried out after the transverse square tube and the vertical square tube are processed, and assembly welding is needed to be carried out after the clamping is completed after the electrophoresis is completed.

Can dismantle clamping device 34 sets up in two 35 left sides of fixed clamping device, can dismantle that clamping device 34 sets up and does not influence the normal processing of side pipe in the setting of two 35 of fixed clamping device, two 35 settings of fixed clamping device are on the both sides of backup pad 3, and backup pad 3 is equipped with a plurality ofly with the blind hole screw thread that can dismantle clamping device 34 and mutually support one, and the distribution is located the middle part and the both ends of backup pad 3, and the bottom in rectangle extrusion groove 8 is the through-hole setting, be equipped with the processing through-hole on the top cap of processing box 1.

A combination method of a light-weight mobile power supply vehicle partition wall machining device comprises the following steps:

s1, the processing method of the square tube 2 specifically comprises the following steps:

s11, placing the square pipe 2 to be processed on the first support plate 3 in sequence, and fixing the square pipe 2 on the first support plate 3 through the first detachable clamping device 34; then, the square tube 2 on the mark is processed and drilled by controlling the drilling device according to the use requirement of the square tube 2 to be processed;

s12, after the through hole is processed on the square tube 2, adjusting the limiting block on the right side to enable the bent square tube 2 to be bent and placed under the action of the limiting plate;

s13, bending the end part of the square tube 2 through a hydraulic telescopic cylinder, and performing electrophoresis treatment on the bent square tube 2;

s2, a combination method of the square tube 2, which comprises the following steps;

s21, after the transverse square tube and the vertical square tube are connected in sequence, the connecting part is welded through the fillet block 61:

and S22, after the strong isolation assembly frame is formed after the welding treatment, sequentially welding and connecting the first sealing plate 56, the second sealing plate 57 and the third sealing plate 58 to form a complete isolation wall assembly.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (9)

1. The utility model provides a lightweight portable power source car divider wall processingequipment which characterized in that: the processing box comprises a processing box body and a square pipe processed by the processing box body, wherein the square pipe is provided with a vertical square pipe and a transverse square pipe, a first supporting plate penetrating through two side walls of the processing box body is arranged on the processing box body, an opening I and an opening II are respectively arranged at the joint of the first supporting plate and the two side walls of the processing box body, an arc-shaped material receiving groove is arranged below the first supporting plate, a first material receiving groove is arranged below the arc-shaped material receiving groove, folding doors are arranged on the side walls of the arc-shaped material receiving groove and the first material receiving groove, and a rectangular extrusion groove is arranged at one end of the first supporting plate;

the square tube processing device is characterized in that an extrusion device is arranged above the rectangular extrusion groove, scale marks are arranged on two sides of the rectangular extrusion groove, a jacking device is arranged inside the square tube and comprises a jacking cross rod, the jacking cross rod is connected through a connecting screw rod, a vertical thread through hole and a transverse thread through hole are arranged on the jacking cross rod, a first supporting leg and a second supporting leg are arranged on the bottom of the processing box body, the square tube is placed on the first supporting plate, an end cover is arranged on the top of the processing box body, a dovetail groove is arranged on the end cover, a drilling device is arranged on the dovetail groove and comprises a supporting rod and a second box body arranged on the supporting rod, a liftable supporting plate is arranged inside the second box body, a first small-sized hydraulic expansion cylinder is arranged on the second supporting plate, a first small-sized hydraulic expansion cylinder is arranged below the second supporting plate, and the first small-sized hydraulic expansion cylinder and the second small-sized hydraulic expansion cylinder are arranged in a staggered manner, so that they do not interfere with each other during operation.

2. The light-weight mobile power supply vehicle partition wall machining device according to claim 1, characterized in that: vertical side's pipe is equipped with vertical side's pipe one, vertical side's pipe two, vertical side's pipe three, vertical side's pipe four and vertical side's pipe five, horizontal side's pipe is equipped with horizontal side's pipe one, horizontal side's pipe two, horizontal side's pipe three and horizontal side's pipe four, and vertical side's pipe one, vertical side's pipe two, vertical side's pipe three, vertical side's pipe four, vertical side's pipe five, horizontal side's pipe one, horizontal side's pipe two, horizontal side's pipe three and horizontal side's pipe four enclose into the partition wall assembly, and vertical side's pipe one, vertical side's pipe two, vertical side's pipe three, vertical side's pipe five, horizontal side's pipe one, horizontal side's pipe two, horizontal side's pipe three and horizontal side's pipe four both ends on all be equipped with through extrusion device bending's joint groove and joint piece, and square pipe is equipped with the electrophoresis hole, the inside of square pipe is hollow structure.

3. The light-weight mobile power supply vehicle partition wall machining device according to claim 2, characterized in that: be equipped with a plurality of blind hole screw threads on the backup pad one, and be equipped with on the blind hole screw thread and dismantle clamping device one and fixed clamping device two, and can dismantle clamping device one and include T font dead lever, and T font dead lever includes horizontal section and vertical section, and vertical section is scalable section, be equipped with the screw thread through-hole on the horizontal section, and be equipped with the puller bolt on the screw thread through-hole, be equipped with the plum blossom on the tip of puller bolt and screw up the head, be equipped with stopper and blind hole screw thread on one side of rectangle extrusion groove, and the stopper passes through the bolt and is fixed with the blind hole screw thread to guaranteed the arbitrary removal of stopper, the extrusion device includes hydraulic telescoping cylinder two, and is equipped with the rectangle stripper plate on the tip of hydraulic telescoping cylinder two.

4. The light-weight mobile power supply vehicle partition wall machining device according to claim 3, characterized in that: a vertical compression plate is arranged at one end of the rectangular extrusion groove, and the right side wall of the vertical compression plate and the left side wall of the rectangular extrusion plate are positioned on the same straight line, so that the bending part of the square pipe can be a right angle; the clamping tool apron is arranged below the first small motor, the clamping tool apron is fixedly connected with an output shaft of the first small motor, the clamping tool apron is clamped below the first small motor through the first clamping bolt, the first clamping bolt is provided with the pressing plate, the pressing plate is rotatably connected with the first clamping bolt, the pressing plate is arranged at the end of the pressing plate and comprises a pressing block, a pressing sponge is arranged at the end of the pressing block, and the pressing sponge is connected with the pressing plate through a plurality of springs.

5. The light-weight mobile power supply vehicle partition wall machining device according to claim 4, characterized in that: the tight horizontal pole in top is equipped with the tight horizontal pole in top one, pushes up tight horizontal pole two, pushes up tight horizontal pole three and pushes up tight horizontal pole four, and is equipped with the screw head on connecting screw's the middle part, and is equipped with forward screw thread and reverse screw thread on the both ends of screw head respectively, the length of the tight horizontal pole in top is 5cm ~17.15cm, and pushes up tight device and is equipped with the multiunit, the length of connecting screw is 40mm-100mm, and when the tight device in single top of installation, can observe through the electrophoresis hole and place, and the tight horizontal pole in top one, push up tight horizontal pole two, push up tight horizontal pole three and push up tight horizontal pole four and connecting screw rod mutually support can form in the outside combination of square pipe.

6. The light-weight mobile power supply vehicle partition wall machining device according to claim 5, characterized in that: the partition wall assembly further comprises an access door, a first sealing plate, a second sealing plate, a third sealing plate and an exhaust duct assembly, the access door is arranged between the first vertical square tube and the third vertical square tube, the first sealing plate is arranged between the third vertical square tube and the fourth vertical square tube, the second sealing plate is arranged between the third vertical square tube and the fourth vertical square tube, the third sealing plate is arranged between the fifth vertical square tube and the second vertical square tube, a 50kw unit is arranged beside the exhaust duct assembly, a through hole with the diameter of 78mm is formed in the exhaust duct assembly, and the distance between the through hole and the first horizontal square tube is 210 mm.

7. The light-weight mobile power supply vehicle partition wall machining device according to claim 6, characterized in that: the length of horizontal side's pipe one and horizontal side's pipe two is 17.7cm, vertical side's pipe four and vertical side's pipe five length all is less than vertical side's pipe one, vertical side's pipe two and vertical side's pipe three length, horizontal side's pipe three and horizontal side's pipe four length all is less than horizontal side's pipe one and horizontal side's pipe two length, and need carry out the electrophoresis after horizontal side's pipe and vertical side's pipe processing, and need carry out the assembly welding again after the electrophoresis is accomplished with the joint.

8. The light-weight mobile power supply vehicle partition wall machining device according to claim 7, characterized in that: can dismantle clamping device one sets up in two left sides of fixed clamping device, two settings of fixed clamping device are in the both sides of backup pad one, and backup pad one and can dismantle that clamping device one is equipped with a plurality ofly on mutually supporting blind hole screw thread one, and distribute and be located the middle part and the both ends of backup pad one, and the bottom in rectangle extrusion groove is the through-hole setting, is equipped with the processing through-hole on the top cap of processing box, just.

9. The method for assembling the light-weight portable power cart partition wall processing apparatus according to any one of claims 1 to 8, comprising: the method comprises the following steps:

s1, the processing method of the square tube specifically comprises the following steps:

s11, placing the square tubes to be processed on a first support plate in sequence, and fixing the square tubes on the first support plate through a first detachable clamping device; then, the square pipe on the mark is processed and drilled by controlling the drilling device according to the use requirement of the square pipe to be processed;

s12, after the through hole is processed on the square tube, the limiting block on the right side is adjusted, so that the bent square tube can be bent and placed under the action of the limiting plate;

s13, bending the end part of the square tube through a hydraulic telescopic cylinder, and performing electrophoresis treatment on the bent square tube;

s2, a method for combining square tubes, which comprises the following steps;

s21, after the transverse square tube and the vertical square tube are connected in sequence, the connecting part is welded through a fillet block at the moment:

and S22, after the welding treatment is completed to form a strong isolation assembly frame, sequentially welding and connecting the first sealing plate, the second sealing plate and the third sealing plate, thereby forming a complete isolation wall assembly.

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