CN216150877U - Intelligent power distribution box staple bolt forming die - Google Patents

Abstract

The utility model provides an intelligent distribution box hoop forming die which comprises a female die bottom plate, a female die, a male die top plate, a male die and a die shank, wherein a molding groove is formed in the female die, and a stamping bulge is formed in the male die; the male die is formed by splicing a plurality of male die forming plates side by side along the thickness direction of the male die forming plates; the female die is formed by splicing a plurality of female die forming plates side by side along the thickness direction of the female die forming plate; the top of the female die is provided with a transverse positioning piece and a longitudinal positioning piece for positioning the anchor ear raw material plate; the male die and the female die are formed by splicing a plurality of thinner forming plates, so that compared with the integral cutting of a traditional thick plate, the cutting quality and the cutting cost of the thin plate are improved, and a user can conveniently assemble the die according to needs to meet the processing requirements of hoops with different widths; in addition, the arrangement of the transverse positioning piece and the longitudinal positioning piece facilitates the auxiliary operation of placing the hoop raw material plate, and improves the positioning precision of the hoop raw material plate.

Description

Intelligent power distribution box staple bolt forming die

Technical Field

The utility model belongs to the technical field of dies, and particularly relates to an intelligent distribution box hoop forming die.

Background

The anchor ear is a fastener for holding or embracing another member, and has a wide application in industry. The processing and forming of the hoop are mainly realized through a die. The traditional forming method is that the hoop raw material plate is placed above a lower die with an arc-shaped forming groove, then an upper die with an arc-shaped bulge is driven by a punching machine to be close to the lower die, and the hoop raw material plate is bent and formed by matching the arc-shaped bulge and the arc-shaped forming groove; however, the existing upper die and lower die are formed by cutting a thick plate, so that the overall processing cost is high, and the purpose of reducing the cost is not facilitated; in addition, because staple bolt raw materials board lacks the location when placing, needs operating personnel manual positioning, very easily leads to the skew preset position in shaping position because of the accurate location position to make the product scrap, reduce the product percent of pass.

SUMMERY OF THE UTILITY MODEL

In view of the defects of the prior art, the utility model aims to provide the hoop forming die for the intelligent distribution box, wherein a male die and a female die of the hoop forming die are formed by splicing a plurality of thin forming plates side by side, so that the cutting quality is effectively improved, the cutting cost is reduced, and the hoop forming die is convenient for a user to automatically assemble according to the width of the hoop to be processed by the user; in addition, the setting of horizontal setting element and vertical setting element is convenient for auxiliary operation personnel to place the former material board of staple bolt, improves the positioning accuracy of the former material board of staple bolt, also avoids the former material board of staple bolt to remove in the course of working simultaneously, improves the qualification rate of staple bolt processing.

In order to achieve the above and other related purposes, the utility model provides an intelligent distribution box hoop forming die, which comprises a female die bottom plate, a female die, a male die top plate, a male die and a die shank, wherein the female die is arranged at the top of the female die bottom plate, the male die is arranged at the bottom of the male die top plate, and the die shank is arranged at the top of the male die; the female die is provided with a molding groove, and the male die is provided with a stamping bulge matched with the molding groove; the male die comprises a plurality of male die forming plates, and each male die forming plate comprises an arc-shaped plate; the plurality of male die forming plates are spliced side by side along the thickness direction of the male die forming plates, so that the arc-shaped plates are spliced to form a stamping bulge; the multiple male die forming plates on the male die are connected together through a first fixing assembly; the female die comprises a plurality of female die forming plates, arc-shaped grooves are formed in the female die forming plates, and the plurality of female die forming plates are spliced side by side along the thickness direction of the female die forming plates, so that the arc-shaped grooves are spliced to form a molding groove; a plurality of female die forming plates on the female die are connected together through a second fixing assembly; the top of the female die is provided with a transverse positioning piece and a longitudinal positioning piece which are used for positioning the position of the hoop raw material plate; the male die and the female die are formed by splicing a plurality of thinner forming plates side by side, compared with the integral cutting of a traditional thick plate, the cutting speed and the cutting cost of the thin plate are improved, and a user can conveniently assemble the die according to the width of the hoop to be processed; in addition, the setting of horizontal setting element and vertical setting element is convenient for auxiliary operation personnel to place the former material board of staple bolt, improves the positioning accuracy of the former material board of staple bolt, also avoids the former material board of staple bolt to remove in the course of working simultaneously, improves the qualification rate of staple bolt processing.

Preferably, the plurality of female die forming plates comprise a first female die forming plate and a second female die forming plate, the first female die forming plate and the second female die forming plate both comprise a base plate, an arc-shaped groove is formed in the base plate, and the longitudinal positioning piece is located on the base plate of the first female die forming plate and is integrally formed with the base plate of the first female die forming plate; the utility model positions the short side position (namely the end position) of the hoop raw material plate by the first female die forming plate with the longitudinal positioning piece, thereby improving the assembly efficiency.

Preferably, the transverse positioning member is positioned on the die forming plate on the outermost side.

Preferably, the male die top plate is provided with a male die fixing component for detachably fixing the male die on the male die top plate, and the female die bottom plate is provided with a female die fixing component for detachably fixing the female die on the female die bottom plate, so that the male dies and the female dies with different widths can be fixed.

Preferably, the male die fixing component comprises a first fixing block, a first mounting block and a first adjusting bolt, and the first fixing block and the first mounting block are arranged at the bottom of the male die top plate at intervals along the width direction of the male die top plate; the first adjusting bolt is in threaded connection with the first mounting block and presses the male die onto the first fixing block after penetrating through the first mounting block; through twisting the first adjusting bolt, the distance between the first fixing block and the first adjusting bolt is changed, so that the pressing and fixing of the male dies with different width sizes are met.

Preferably, the male die fixing assembly comprises a first pressing block and a first connecting bolt; the first pressing block is positioned between the first fixing block and the first mounting block; a first movable counter bore is formed in the first pressing block, the first connecting bolt is movably arranged in the first movable counter bore, and a bolt rod of the first connecting bolt extends out of the first movable counter bore; the first adjusting bolt is provided with a first threaded hole matched with the first connecting bolt; the first adjusting bolt penetrates through the first mounting block and then is in threaded connection with a bolt rod of the first connecting bolt, so that the male die is pressed on the first fixing block through the first pressing block; when the male die needs to be fixed, the male die is placed between the first fixing block and the first pressing block, and then the first adjusting bolt is screwed to move towards the direction close to the first pressing block until the first adjusting bolt is contacted with the first pressing block; continuing screwing the first adjusting bolt, and moving the first pressing block and the first connecting bolt together in the direction close to the male die under the driving of the first adjusting bolt until the bolt head of the first connecting bolt is contacted with the male die; continuously screwing the first adjusting bolt to enable the first adjusting bolt to be continuously close to the bolt head of the first connecting bolt, and at the moment, continuously moving the first pressing block to the direction close to the male die until the first pressing block is pressed on the male die; the contact area between the first adjusting bolt and the male die is increased through the first pressing block, and the stability of the male die is guaranteed.

Preferably, the female die fixing assembly comprises a second fixing block, a second mounting block and a second adjusting bolt, and the second fixing block and the second mounting block are arranged at the top of the female die base plate at intervals along the width direction of the female die base plate; the second adjusting bolt is in threaded connection with the second mounting block, and the female die is pressed on the second fixing block after the second adjusting bolt penetrates through the second mounting block; and the distance between the second fixing block and the second adjusting bolt is changed by screwing the second adjusting bolt, so that the compression fixation of the female dies with different width sizes is met.

Preferably, the female die fixing assembly comprises a second pressing block located between the second fixing block and the second mounting block; the second adjusting bolt penetrates through the second mounting block and then is in threaded connection with the second pressing block, so that the female die is pressed on the second fixing block through the second pressing block; when the female die needs to be fixed, the female die is placed between the second fixing block and the second pressing block, the second pressing block is moved, the female die is pressed on the second fixing block through the second pressing block, then the second adjusting bolt is screwed while the second pressing block is pressed, and the second adjusting bolt is moved towards the direction close to the second pressing block until the second adjusting bolt is stably screwed on the second pressing block; the contact area between the second adjusting bolt and the female die is increased through the second pressing block, and the stability of the female die is guaranteed.

Preferably, the die fixing assembly comprises a second pressing block and a second connecting bolt; the second pressing block is positioned between the second fixed block and the second mounting block; a second movable counter bore is formed in the second pressing block, the second connecting bolt is movably arranged in the second movable counter bore, and a bolt rod of the second connecting bolt extends out of the second movable counter bore; the second adjusting bolt is provided with a second threaded hole matched with the second connecting bolt; the second adjusting bolt penetrates through the second mounting block and is in threaded connection with a bolt rod of a second connecting bolt, so that the female die is pressed on the second fixing block through a second pressing block; when the female die needs to be fixed, the female die is placed between the second fixing block and the second pressing block, and then the second adjusting bolt is screwed to move towards the direction close to the second pressing block until the second adjusting bolt is contacted with the second pressing block; continuing to screw the second adjusting bolt, and moving the second pressing block and the second connecting bolt together in the direction close to the female die under the driving of the second adjusting bolt until the bolt head of the second connecting bolt is contacted with the female die; continuously screwing the second adjusting bolt to enable the second adjusting bolt to be continuously close to the bolt head of the second connecting bolt, and at the moment, continuously moving the second pressing block towards the direction close to the female die until the second pressing block is pressed on the female die; the contact area between the second adjusting bolt and the female die is increased through the second pressing block, and the stability of the female die is guaranteed.

Preferably, the first fixing assembly comprises a first fixing bolt and a first fixing nut, and the first fixing assembly sequentially penetrates through each male die forming plate of the male die and then is screwed with the first fixing nut; the second fixing assembly comprises a second fixing bolt and a second fixing nut, and the second fixing assembly sequentially penetrates through each female die forming plate of the female die and then is screwed with the second fixing nut; the quantity of the profiled sheeting of being convenient for increase and decrease is in order to satisfy the processing of different width size staple bolts.

In summary, compared with the prior art, the utility model has at least the following beneficial effects:

1. because the male die and the female die are formed by splicing a plurality of thinner forming plates side by side, compared with the integral cutting of the traditional thick plate, the cutting speed and the cutting cost of the thin plate are improved; meanwhile, the user can conveniently assemble the die according to the width of the hoop to be processed;

2. the arrangement of the transverse positioning piece and the longitudinal positioning piece is convenient for assisting operators to place the hoop raw material plate, improves the positioning precision of the hoop raw material plate, simultaneously avoids the movement of the hoop raw material plate in the processing process, and improves the qualification rate of hoop processing;

3. the longitudinal limiting piece is arranged on the base plate of the first female die forming plate, so that the processing efficiency and the assembling efficiency are improved;

4. utilize fixing bolt and fixation nut to assemble the die profiled sheeting for the die, the equipment of terrace die profiled sheeting is the terrace die, and the user of being convenient for is through the processing demand that increases and decreases profiled sheeting quantity in order to satisfy different width size staple bolts.

Drawings

Fig. 1 is a perspective view of a first view angle of the hoop forming die for the intelligent distribution box.

Fig. 2 is a perspective view of a second viewing angle of the hoop forming die for the intelligent distribution box (hoop removing raw material plate) in the utility model.

Fig. 3 is a schematic view of a male forming plate.

Fig. 4 is a schematic view of a first female mold plate.

FIG. 5 is a schematic view of a second female mold plate.

Fig. 6 is a left-side view partial section view of intelligent distribution box hoop forming die.

Fig. 7 is a schematic view of the first pressing block and the first adjusting bolt.

Fig. 8 is a schematic view of the second pressing block and the second adjusting bolt.

Fig. 9 is a schematic view of a processing-molded hoop.

Description of the reference numerals

01 staple bolt raw material plate

02 staple bolt

10 concave die bottom plate

11 second fixed block

12 second mounting block

13 second compact heap

131 second accommodating hole

14 second adjusting bolt

141 second screw hole

15 second connecting bolt

20 concave die

21 female die forming plate

21a first female die forming plate

21b second female die forming plate

211 base plate

212 arc-shaped groove

213 longitudinal positioning element

22 shaped groove

30 terrace die top plate

31 first fixing block

32 first mounting block

33 first holding-down block

331 first accommodation hole

34 first adjusting bolt

341 first screw hole

35 first connecting bolt

40 male die

41 male die forming plate

411 strip plate

412 arc plate

42 punch protrusion

51 first fixing bolt

52 second fixing bolt

60 transverse positioning element

70 die handle

Detailed Description

The following description of the embodiments of the present invention is provided for illustrative purposes, and other advantages and effects of the present invention will become apparent to those skilled in the art from the present disclosure.

Please refer to fig. 1 to 9. It should be understood that the structures, ratios, sizes, and the like shown in the drawings and described in the specification are only used for matching with the disclosure of the specification, so as to be understood and read by those skilled in the art, and are not used to limit the conditions under which the present invention can be implemented, so that the present invention has no technical significance, and any structural modification, ratio relationship change, or size adjustment should still fall within the scope of the present invention without affecting the efficacy and the achievable purpose of the present invention. In addition, the terms "upper", "lower", "left", "right", "middle" and "one" used in the present specification are for clarity of description, and are not intended to limit the scope of the present invention, and the relative relationship between the terms and the terms is not to be construed as a scope of the present invention.

As shown in fig. 1 to 5 and 9, the utility model provides an intelligent distribution box hoop forming die, which comprises a female die bottom plate 10, a female die 20, a male die top plate 30, a male die 40 and a die shank 70, wherein the female die 20 is detachably fixed at the top of the female die bottom plate 10, the male die 40 is detachably fixed at the bottom of the male die top plate 30, and the die shank 70 is arranged at the top of the male die top plate 30; the female die 20 is provided with a molding groove 22, and the male die 40 is provided with a stamping bulge 42 matched with the molding groove 22, so that the male die 40 is driven by the die shank 70 to be close to the female die 20, and the stamping bulge 42 is matched with the molding groove 22 to press and mold the hoop raw material plate 01 into the hoop 02;

the male die 40 comprises a plurality of male die forming plates 41, and each male die forming plate 41 comprises a strip-shaped plate 411 and an arc-shaped plate 412; the plurality of male die forming plates 41 are spliced side by side along the thickness direction (i.e., the transverse direction) of the male die forming plates 41, so that the arc-shaped plates 412 are spliced to form the stamping protrusions 42; a plurality of punch forming plates 41 on the punch 40 are connected together by a first fixing assembly; the female die 20 comprises a plurality of female die forming plates 21, each female die forming plate 21 comprises a base plate 211, each base plate 211 is provided with an arc-shaped groove 212, and the female die forming plates 21 are spliced side by side along the thickness direction (namely, the transverse direction) of each female die forming plate 21, so that the arc-shaped grooves 212 are spliced to form a molding groove 22; a plurality of female die forming plates 21 on the female die 20 are connected together through a second fixing assembly;

the top of the female die 20 is provided with a transverse positioning piece 60 and a longitudinal positioning piece 213 which are used for positioning the position of the hoop raw material plate 01, the transverse positioning piece 60 is abutted against the long side face of the hoop raw material plate 01, and the longitudinal positioning piece 213 is abutted against the short side face of the hoop raw material plate 01.

As shown in fig. 4 and 5, the female mold plate 21 has two structures, namely a first female mold plate 21a and a second female mold plate 21b, which are different from each other: the longitudinal positioning member 213 integrally formed with the base plate 211 of the first female die forming plate 21a is arranged on the base plate 211 of the first female die forming plate 21a, so that the longitudinal positioning member 213 does not need to be separately manufactured and installed, and the processing efficiency and the assembly efficiency are improved.

It is understood that, when assembling the female die 20, only the first female die forming plate 21a may be used for assembling, or alternatively, the first female die forming plate 21a and the second female die forming plate 21b may be assembled together, which is not limited to this, and the female die 20 is preferably configured to be assembled together by the first female die forming plate 21a and the second female die forming plate 21 b.

As shown in fig. 1 and 2, the transverse positioning member 60 is located on the outermost female die forming plate 21 to avoid interference with the male die 40.

As shown in fig. 1, the first fixing assembly includes a first fixing bolt 51 and a first fixing nut, and the first fixing assembly passes through each punch forming plate 41 of the punch 40 in sequence and then is screwed with the first fixing nut; the second fixing assembly comprises a second fixing bolt 52 and a second fixing nut, the second fixing bolt 52 sequentially penetrates through each female die forming plate 21 of the female die 20 and then is screwed with the second fixing nut, the number of the forming plates is increased or decreased conveniently, so that the male die 40 and the female die 20 with different width sizes are obtained, and the processing requirements of the hoops with different width sizes are further met.

Furthermore, a male die fixing component for detachably fixing the male die 40 on the male die top plate 30 is arranged on the male die top plate 30, and a female die fixing component for detachably fixing the female die 20 on the female die bottom plate 10 is arranged on the female die bottom plate 10.

As shown in fig. 6, the punch fixing assembly includes a first fixing block 31, a first mounting block 32 and a first adjusting bolt 34, wherein the first fixing block 31 and the first mounting block 32 are arranged at the bottom of the punch top 30 at intervals along the width direction of the punch top 30; the first adjusting bolt 34 is screwed on the first mounting block 32, and after the first adjusting bolt 34 passes through the first mounting block 32, the male die 40 is pressed against the first fixing block 31, so that the male die 40 is detachably fixed on the male die top plate 30.

Further, as shown in fig. 6 and 7, the punch fixing assembly further includes a first pressing block 33 and a first connecting bolt 35; the first pressing block 33 is positioned between the first fixing block 31 and the first mounting block 32; a first movable counter bore is formed in the first pressing block 33, a first connecting bolt 35 is movably arranged in the first movable counter bore, and a bolt rod of the first connecting bolt 35 extends out of the first movable counter bore; a first threaded hole 341 matched with the first connecting bolt 35 is formed in the first adjusting bolt 34; the first adjusting bolt 34 passes through the first mounting block 32 and then is in threaded connection with the bolt rod of the first connecting bolt 35, so that the male die 40 is pressed on the first fixing block 31 through the first pressing block 33; when the male die 40 is arranged between the first fixed block 31 and the first pressing block 33, the first adjusting bolt 34 is screwed, so that the first pressing block 33 moves towards the first fixed block 31 until the first pressing block 33 stably presses the male die 40 on the first fixed block 31.

Further, as shown in fig. 7, a first accommodating hole 331 is formed in the outer side surface of the first pressing block 33, and the first accommodating hole 331 and the first movable counter bore form a first stepped hole; the bolt shank of the first connecting bolt 35 is located in the first receiving hole 331, and the bolt shank of the first adjusting bolt 34 extends into the first receiving hole 331 and is screwed with the first connecting bolt 35.

As shown in fig. 6, the die fixing assembly includes a second fixing block 11, a second mounting block 12 and a second adjusting bolt 14, wherein the second fixing block 11 and the second mounting block 12 are arranged at the top of the die base plate 10 at intervals along the width direction of the die base plate 10; the second adjusting bolt 14 is in threaded connection with the second mounting block 12, and after the second adjusting bolt 14 penetrates through the second mounting block 12, the female die 20 is pressed on the second fixing block 11, so that the female die 20 is detachably fixed on the female die base plate 10.

It will be appreciated that in one embodiment, as shown in figure 6, the die fixing assembly comprises a second compression block 13 and a second connecting bolt 15; the second pressing block 13 is positioned between the second fixing block 11 and the second mounting block 12; a second movable counter bore is formed in the second pressing block 13, the second connecting bolt 15 is movably arranged in the second movable counter bore, and a bolt rod of the second connecting bolt 15 extends out of the second movable counter bore; the second adjusting bolt 14 is provided with a second threaded hole 141 matched with the second connecting bolt 15; the second adjusting bolt 14 penetrates through the second mounting block 12 and then is in threaded connection with a bolt rod of a second connecting bolt 15, so that the female die 20 is pressed on the second fixing block 11 through a second pressing block 13; when the female die 20 is arranged between the second fixed block 11 and the second pressing block 13, the second adjusting bolt 14 is screwed, so that the second pressing block 13 moves towards the direction close to the second fixed block 11 until the female die 20 is stably pressed on the second fixed block 11 by the second pressing block 13.

Further, as shown in fig. 7, a second accommodating hole 131 is formed in the outer side surface of the second compression block 12, and the second accommodating hole 131 and the second movable counter bore form a second stepped hole; the shank of the second connecting bolt 15 extends into the second receiving hole 131, and the shank of the second adjusting bolt 14 extends into the second receiving hole 131 and is screwed to the second connecting bolt 15.

In another embodiment, the die fixing assembly further comprises a second pressing block 13 located between the second fixing block 11 and the second mounting block 12; when the female die 20 is clamped between the second fixing block 11 and the second pressing block 13, the second adjusting bolt 14 passes through the second mounting block 12 and then is in threaded connection with the second pressing block 13 to stably support the second pressing block 13, so that the female die 20 is stably pressed on the second fixing block 11 by the second pressing block 13.

It can be understood that the second adjusting bolt 14 and the second pressing block 13 are connected by threads in various manners; one is that: a second connecting bolt 15 is fixed on the second pressing block 13, and a second threaded hole 141 matched with the second connecting bolt 15 is formed in the second adjusting bolt 14; the other is as follows: an internal thread hole matched with the second adjusting bolt 14 is directly formed in the second pressing block 13; the manner in which this is done is not limiting.

In conclusion, the male die and the female die are formed by splicing a plurality of thinner forming plates side by side, and compared with the integral cutting of a traditional thick plate, the cutting quality and the cutting cost of a thin plate are improved; the user can conveniently assemble the die according to the width of the hoop to be processed, and the applicability of the die is improved; in addition, the setting of horizontal setting element and vertical setting element is convenient for auxiliary operation personnel to place the former material board of staple bolt, improves the positioning accuracy and the location efficiency of the former material board of staple bolt, also avoids the former material board of staple bolt to remove in the course of working simultaneously, improves the qualification rate of staple bolt processing.

The foregoing embodiments are merely illustrative of the principles and utilities of the present invention and are not intended to limit the utility model. Any person skilled in the art can modify or change the above-mentioned embodiments without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which can be made by those skilled in the art without departing from the spirit and technical spirit of the present invention be covered by the claims of the present invention.

Claims (10)

1. The hoop forming die for the intelligent distribution box comprises a female die bottom plate (10), a female die (20), a male die top plate (30), a male die (40) and a die shank (70), wherein the female die (20) is arranged at the top of the female die bottom plate (10), the male die (40) is arranged at the bottom of the male die top plate (30), and the die shank (70) is arranged at the top of the male die top plate (30); a molding groove (22) is formed in the female die (20), and a stamping protrusion (42) matched with the molding groove (22) is formed in the male die (40); characterized in that the male die (40) comprises a plurality of male die forming plates (41), the male die forming plates (41) comprising an arc-shaped plate (412); the multiple male die forming plates (41) are spliced side by side along the thickness direction of the male die forming plates (41), so that the arc-shaped plates (412) are spliced to form stamping protrusions (42); a plurality of male die forming plates (41) on the male die (40) are connected together through a first fixing assembly; the female die (20) comprises a plurality of female die forming plates (21), arc-shaped grooves (212) are formed in the female die forming plates (21), and the female die forming plates (21) are spliced side by side along the thickness direction of the female die forming plates (21) so that the arc-shaped grooves (212) are spliced to form molding grooves (22); a plurality of female die forming plates (21) on the female die (20) are connected together through a second fixing component; and the female die (20) is provided with a transverse positioning piece (60) and a longitudinal positioning piece (213) for positioning the position of the hoop raw material plate (01).

2. The hoop forming die for the intelligent distribution box according to claim 1, wherein the plurality of female die forming plates (21) comprise a first female die forming plate (21a) and a second female die forming plate (21b), each of the first female die forming plate (21a) and the second female die forming plate (21b) comprises a base plate (211), an arc-shaped groove (212) is formed in each base plate (211), and the longitudinal positioning piece (213) is located on each base plate (211) of the first female die forming plate (21a) and is integrally formed with each base plate (211) of the first female die forming plate (21 a).

3. The hoop forming die for the intelligent distribution box is characterized in that the transverse positioning piece (60) is positioned on the outermost concave die forming plate (21).

4. The hoop forming die for the intelligent distribution box according to claim 1, wherein a male die fixing component for detachably fixing a male die (40) on the male die top plate (30) is arranged on the male die top plate (30), and a female die fixing component for detachably fixing a female die (20) on the female die bottom plate (10) is arranged on the female die bottom plate (10).

5. The hoop forming die for the intelligent distribution box is characterized in that the male die fixing component comprises a first fixing block (31), a first mounting block (32) and a first adjusting bolt (34), wherein the first fixing block (31) and the first mounting block (32) are arranged at the bottom of the male die top plate (30) at intervals in the width direction of the male die top plate (30); the first adjusting bolt (34) is in threaded connection with the first mounting block (32), and the male die (40) is pressed on the first fixing block (31) after the first adjusting bolt (34) penetrates through the first mounting block (32).

6. The hoop forming die for the intelligent distribution box is characterized in that the male die fixing assembly comprises a first pressing block (33) and a first connecting bolt (35); the first pressing block (33) is positioned between the first fixing block (31) and the first mounting block (32); a first movable counter bore is formed in the inner side face of the first pressing block (33), the first connecting bolt (35) is movably arranged in the first movable counter bore, and a bolt rod of the first connecting bolt (35) extends out of the first movable counter bore; a first threaded hole (341) matched with the first connecting bolt (35) is formed in the first adjusting bolt (34); the first adjusting bolt (34) penetrates through the first mounting block (32) and then is in threaded connection with a bolt rod of the first connecting bolt (35), so that the male die (40) is pressed on the first fixing block (31) through the first pressing block (33).

7. The hoop forming die for the intelligent distribution box according to claim 4, 5 or 6, wherein the female die fixing assembly comprises a second fixing block (11), a second mounting block (12) and a second adjusting bolt (14), and the second fixing block (11) and the second mounting block (12) are arranged at the top of the female die base plate (10) at intervals along the width direction of the female die base plate (10); and the second adjusting bolt (14) is in threaded connection with the second mounting block (12), and the female die (20) is pressed on the second fixing block (11) after the second adjusting bolt (14) passes through the second mounting block (12).

8. The hoop forming die for the intelligent distribution box according to claim 7, wherein the female die fixing assembly comprises a second pressing block (13) located between a second fixing block (11) and a second mounting block (12); and the second adjusting bolt (14) penetrates through the second mounting block (12) and then is in threaded connection with the second pressing block (13) so as to press the female die (20) on the second fixing block (11) through the second pressing block (13).

9. The hoop forming die for the intelligent distribution box according to claim 7, wherein the female die fixing assembly comprises a second pressing block (13) and a second connecting bolt (15); the second pressing block (13) is positioned between the second fixing block (11) and the second mounting block (12); a second movable counter bore is formed in the second pressing block (13), the second connecting bolt (15) is movably arranged in the second movable counter bore, and a bolt rod of the second connecting bolt (15) extends out of the second movable counter bore; a second threaded hole (141) matched with the second connecting bolt (15) is formed in the second adjusting bolt (14); and the second adjusting bolt (14) penetrates through the second mounting block (12) and then is in threaded connection with a bolt rod of the second connecting bolt (15), so that the female die (20) is pressed on the second fixing block (11) through the second pressing block (13).

10. The hoop forming die for the intelligent distribution box is characterized in that the first fixing assembly comprises a first fixing bolt (51) and a first fixing nut, and the first fixing assembly sequentially penetrates through each male die forming plate (41) of the male die (40) and then is screwed with the first fixing nut; the second fixing assembly comprises a second fixing bolt (52) and a second fixing nut, and the second fixing bolt (52) sequentially penetrates through each die forming plate (21) of the die (20) and then is screwed with the second fixing nut.

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