CN209736514U - Hoop bending processing equipment - Google Patents

Abstract

The utility model provides a hoop bending processing device, which comprises a frame and a plurality of hoop bending machine heads, wherein the frame comprises a first slide rail and a second slide rail, a plurality of mounting platforms are arranged between the first slide rail and the second slide rail, the mounting platforms can slide on the first slide rail and the second slide rail, and the hoop bending machine heads are fixed on the corresponding mounting platforms; the mounting platform is provided with a locking assembly, the locking assembly comprises a sliding wedge block, a fixed wedge block and an adjusting rod, the fixed wedge block is fixedly arranged on the mounting platform or the hoop bending machine head, the adjusting rod is rotatably arranged on the mounting platform, and the adjusting rod is used for driving the sliding wedge block to slide relative to the mounting platform; the first slide rail is provided with a positioning plate which is obliquely arranged, and the positioning plate is positioned between the inclined surface of the sliding wedge-shaped block and the inclined surface of the fixed wedge-shaped block. The assembly efficiency of the hoop bending machining equipment is improved, and the hoop bending machining equipment is convenient for operators to use.

Description

Hoop bending processing equipment

Technical Field

The utility model relates to the field of machinary, especially, relate to a curved hoop processing equipment.

Background

The steel bar hoop bending processing equipment is mainly applied to steel bar bending processing and forming in the capital construction industry, and has the characteristics of large yield, no deformation of the hoop and simple operation, so that the application range of the steel bar hoop bending processing equipment is more and more extensive. The reinforcing steel bar hoop bending machining equipment generally comprises a rack and a plurality of hoop bending machine heads arranged on the rack, and the positions of the hoop bending machine heads can be adjusted on the rack as required to meet different reinforcing steel bar hoop bending requirements. Chinese patent No. 201621390950.0 discloses a multi-head steel bar cutting and hoop bending integrated machine, wherein a plurality of hoop bending heads slide to a designated position on a frame, and then are extruded to the frame through two wedge blocks close to each other to position the hoop bending heads. However, because two wedge-shaped blocks need to be installed, the relative positions of the two wedge-shaped blocks need to be adjusted, which results in low assembly efficiency; moreover, due to the influence of assembly errors, the distance between the inclined surfaces of the two wedge-shaped blocks and the rack is different, and in the process of moving and adjusting the hoop bending machine head, one wedge-shaped block is easy to separate from the rack, and the other wedge-shaped block is still attached to the rack, so that the hoop bending machine head is unsmooth in movement and inconvenient to use. How to design an equipment efficiency height and convenient to use's curved hoop processing equipment is the utility model aims to solve the technical problem.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model lies in overcoming the not enough of above-mentioned prior art existence, and provides a curved hoop processing equipment to improve the packaging efficiency height of curved hoop processing equipment and make things convenient for operating personnel to use.

In order to solve the technical problem, the utility model provides a hoop bending processing device, which comprises a frame and a plurality of hoop bending machine heads, wherein the frame comprises a first slide rail and a second slide rail, a plurality of mounting platforms are arranged between the first slide rail and the second slide rail, the mounting platforms can slide on the first slide rail and the second slide rail, and the hoop bending machine heads are fixed on the corresponding mounting platforms; the hoop bending machine comprises a mounting platform, a locking assembly and a hoop bending machine head, wherein the mounting platform is provided with the locking assembly, the locking assembly comprises a sliding wedge-shaped block, a fixed wedge-shaped block and an adjusting rod, the fixed wedge-shaped block is fixedly arranged on the mounting platform or the hoop bending machine head, the adjusting rod is rotatably arranged on the mounting platform, and the adjusting rod is used for driving the sliding wedge-shaped block to slide relative to the mounting platform; the first slide rail is provided with a positioning plate which is obliquely arranged, and the positioning plate is positioned between the inclined surface of the sliding wedge-shaped block and the inclined surface of the fixed wedge-shaped block.

furthermore, a first threaded hole is formed in the sliding wedge-shaped block, the adjusting rod is provided with a first threaded section matched with the first threaded hole, and the first threaded section is in threaded connection with the first threaded hole.

furthermore, a second thread section is arranged on the adjusting rod, a second threaded hole matched with the second thread section is formed in the mounting platform, the second thread section is in threaded connection with the second threaded hole, and the thread direction of the second thread section is opposite to that of the first thread section.

Furthermore, the adjusting rod is provided with an annular positioning groove, the mounting platform is provided with a shaft hole, a protruding positioning portion matched with the annular positioning groove is arranged in the shaft hole, the adjusting rod is inserted into the shaft hole, and the protruding positioning portion is located in the annular positioning groove.

Further, the adjusting rod is connected with the sliding wedge block, and the adjusting rod can only rotate relative to the sliding wedge block; the adjusting rod is provided with a third threaded section, the mounting platform is provided with a third threaded hole matched with the third threaded section, and the third threaded section is in threaded connection with the third threaded hole.

Further, the mounting platform is provided with a mounting plate extending downwards, the adjusting rod is rotatably mounted on the mounting plate, and one end of the adjusting rod is exposed outside the mounting plate.

Furthermore, a ruler for measuring the position of the mounting platform is further arranged on the first sliding rail, and a pointer matched with the ruler is further arranged on the mounting platform.

Compared with the prior art, the beneficial effects of the utility model are that: the hoop bending processing equipment comprises a mounting platform, a locking assembly, a sliding wedge block, a fixed wedge block, a positioning plate, a sliding wedge block, a fixed wedge block, a rotating adjusting rod, a first slide rail, a second slide rail and a second slide rail, wherein the first slide wedge block and the second slide rail are arranged on the mounting platform, the first slide wedge block and the, only need adjust the locating plate when the equipment and make it insert and can accomplish the equipment between slip wedge and the fixed wedge, the effectual equipment process of having simplified, and operating personnel can slide the assigned position along the slide rail smoothly with the hand promotion mounting platform after loosening locking Assembly after the in-service use, and need not to realize mounting platform's removal with the help of other auxiliary component, and accommodation process is more convenient, has improved the convenience in use.

Drawings

FIG. 1 is a partial front view of an embodiment of the hoop bending apparatus of the present invention;

FIG. 2 is a side view of an embodiment of the hoop bending apparatus of the present invention;

FIG. 3 is an enlarged view of a portion of area A of FIG. 2;

Fig. 4 is a second side view of the embodiment of the hoop bending apparatus of the present invention;

FIG. 5 is an enlarged partial view of the area B in FIG. 4;

Fig. 6 is one of the schematic structural diagrams of the adjusting rod in the embodiment of the hoop bending apparatus of the present invention;

fig. 7 is a schematic structural diagram of an adjusting rod in an embodiment of the hoop bending apparatus of the present invention.

Detailed Description

for further explanation of the principles and construction of the present invention, reference will now be made in detail to the preferred embodiments of the present invention, which are illustrated in the accompanying drawings.

As shown in fig. 1 to 5, the hoop bending processing apparatus of this embodiment includes a rack 100 and a plurality of hoop bending heads 200, the rack 100 includes a first slide rail 1 and a second slide rail 2, a plurality of mounting platforms 3 are disposed between the first slide rail 1 and the second slide rail 2, the mounting platforms 3 can slide on the first slide rail 1 and the second slide rail 2, and the hoop bending heads 200 are fixed on the corresponding mounting platforms 3; the mounting platform 3 is provided with a locking assembly 4, the locking assembly 4 comprises a sliding wedge block 41, a fixed wedge block 42 and an adjusting rod 43, the fixed wedge block 42 is fixedly arranged on the mounting platform 3 or the hoop bending machine head 200, the adjusting rod 43 is rotatably arranged on the mounting platform 3, and the adjusting rod 43 is used for driving the sliding wedge block 41 to slide relative to the mounting platform 3; the first slide rail 1 is provided with a positioning plate 11 which is arranged obliquely, and the positioning plate 11 is positioned between the inclined surface of the sliding wedge block 41 and the inclined surface of the fixed wedge block 42.

Specifically, the frame 100 of the hoop bending machine of the present embodiment includes a first slide rail 1 and a second slide rail 2 which are parallel to each other, and the installation platform 3 disposed between the first slide rail 1 and the second slide rail 2 can install the hoop bending machine head 200 and drive the hoop bending machine head 200 to slide along the first slide rail 1 and the second slide rail 2.

When the hoop bending machine head 200 needs to be locked and fixed, after the mounting platform 3 slides to the designated position, an operator drives the sliding wedge block 41 to slide upwards along the upper surface of the positioning plate 11 by rotating the adjusting rod 43 to realize locking.

Specifically, as shown in fig. 3, in the unlocked state, neither the sliding wedge block 41 nor the fixed wedge block 42 is in contact with the positioning plate 11; after the adjusting rod 43 is rotated, the sliding wedge 41 will gradually approach the positioning plate 11 and abut against the upper surface of the positioning plate 11. At this time, the fixed wedge block 42 is located below the positioning plate 11 and is not in contact with the positioning plate 11, and as the adjusting rod 43 continues to rotate, the sliding wedge block 41 continues to slide upward along the upper surface of the positioning plate 11, so as to drive the corresponding end of the mounting platform 3 to move upward, so that the sliding wedge block 41 and the fixed wedge block 42 synchronously move upward. And the first slide rail 1 is fixed in the height direction, so that the fixed wedge-shaped block 42 at the bottom of the positioning plate 11 is finally abutted against the lower surface of the positioning plate 11. At this time, as shown in fig. 5, the adjustment rod 43 is further rotated, so that the positioning plate 11 is firmly clamped between the inclined surface of the sliding wedge block 41 and the inclined surface of the fixed wedge block 42, and thus, the locking operation of the installation platform 3 can be completed.

When the locking assembly 4 is unlocked, the adjusting rod 43 is rotated reversely to make the sliding wedge block 41 slide reversely, and the sliding wedge block 41 will move downwards along the upper surface of the positioning plate 11 to drive the fixed wedge block 42 to move downwards synchronously. Finally, the fixed wedge 42 is disengaged from the lower surface of the positioning plate 11, and at the same time, the sliding wedge 41 moves horizontally and away from the upper surface of the positioning plate 11 while moving downward, so as to ensure that the sliding wedge 41 and the fixed wedge 42 are not in contact with the positioning plate 11 in the unlocked state. Like this, alright in order to make things convenient for operating personnel to promote the smooth and easy slip of mounting platform 3 with the hand, convenient operation is in order to improve the convenience of use. The inclined surfaces of the positioning plate 11, the sliding wedge block 41 and the fixed wedge block 42 have the same inclination direction, the sliding wedge block 41 and the fixed wedge block 42 can be located at the lower part of the installation platform 3, the upper end surface of the sliding wedge block 41 abuts against the lower surface of the installation platform 3 and slides back and forth along the axis of the adjusting rod 43, and the fixed wedge block 42 can be fixed on the installation platform 3 or the hoop bending machine head 200 by adopting bolt fixing or welding and other methods without limitation.

The two end portions of the mounting platform 3 are slidably connected to the first slide rail 1 and the second slide rail 2 in various manners. For example: the first slide rail 1 is used for supporting the mounting platform 3 to slide, and needs to cooperate with the locking assembly 4 to achieve locking and positioning, and during the locking process, as the sliding wedge block 41 moves along the surface of the positioning plate 11, the mounting platform 3 will generate a certain amount of up-and-down positions relative to the first slide rail 1, and therefore, the position of the mounting platform 3 in sliding cooperation with the first slide rail 1 can generate a position in the height direction. The specific matching structure of the mounting platform 3 and the first slide rail 1 may be: the first slide rail 1 is provided with a raised guide rail 12, correspondingly, the corresponding end of the mounting platform 3 is provided with a rotatable roller 31, the circumferential surface of the roller 31 forms an annular groove, and in the rolling process of the roller 31 along the guide rail, the guide rail 12 is positioned in the annular groove to realize limiting, so that the roller 31 is ensured not to be separated from the guide rail 12 to roll. In addition, for the second slide rail 2 mainly plays a role of guiding and supporting, the bottom of the mounting platform 3 may be configured with a slide block 32 having a sliding slot to cooperate with the second slide rail 2, and preferably, the second slide rail 2 may be configured with a guide post 21 having a circular cross section, and the guide post 21 is located in the sliding slot of the slide block 32.

Furthermore, there are various ways of driving the sliding wedge block 41 to slide relative to the mounting platform 3 by the adjusting rod 43.

First, as shown in fig. 6, the adjusting rod 43 is in threaded engagement with the sliding wedge block 41, that is, a first threaded hole (not shown) is formed in the sliding wedge block 41, the adjusting rod 43 is provided with a first threaded section 431 in threaded engagement with the first threaded hole, and the first threaded section 431 is in threaded engagement with the first threaded hole. Specifically, during the rotation of the adjustment rod 43, the first threaded section 431 rotates in the first threaded hole, so that the sliding wedge block 41 slides relative to the mounting platform 3.

However, the connection of the adjustment lever 43 to the mounting platform 3 may be as follows.

One is a structural form of the adjusting rod 43 in fig. 6, a second threaded section 432 is provided on the adjusting rod 43, a second threaded hole (not shown) matched with the second threaded section 432 is provided on the mounting platform 3, the second threaded section 432 is in threaded connection with the second threaded hole, the thread direction of the second threaded section 432 is opposite to that of the first threaded section 431, and in the process of rotating the adjusting rod 43, an operator, because the thread directions of the first threaded section 431 and the second threaded section 432 are opposite, taking locking as an example, in the rotating process of the adjusting rod 43, the adjusting rod 43 and the sliding wedge block 41 synchronously move in the same direction, so as to accelerate the moving speed of the sliding wedge block 41.

Another form is the adjustment lever 43 of fig. 7, which adjustment lever 43 can only rotate relative to the mounting platform 3 and cannot move along the axis of the adjustment lever 43. For this reason, the connecting portion of the adjusting lever 43 and the mounting platform 3 needs to cooperate with the mounting platform 3 to limit the movement of the adjusting lever 43, such as: the adjusting rod 43 is provided with an annular positioning groove 433, the mounting platform 3 is provided with a shaft hole (not shown), a protruding positioning part (not shown) matched with the annular positioning groove 433 is arranged in the shaft hole, the adjusting rod 43 is inserted into the shaft hole, and the protruding positioning part is positioned in the annular positioning groove 433. Specifically, the adjusting rod 43 is inserted into the shaft hole and can rotate in the shaft hole, and the protrusion positioning portion in the shaft hole is located in the annular positioning groove 433, so that the adjusting rod 43 is guided to rotate on the one hand, and the movement of the adjusting rod 43 is limited by the protrusion positioning portion cooperating with the annular positioning groove 433 on the other hand.

in the second mode, the adjusting rod 43 is connected with the sliding wedge block 41, and the adjusting rod 43 can only rotate relative to the sliding wedge block 41; a third threaded section is arranged on the adjusting rod 43, a third threaded hole matched with the third threaded section is arranged on the mounting platform 3, and the third threaded section is in threaded connection with the third threaded hole. Specifically, the structure of the adjusting rod 43 in the second mode may refer to the structure form in fig. 7, and compared with the connection mode of the adjusting rod 43, the sliding wedge block 41 and the mounting platform 3 in the first mode in fig. 7, the adjusting rod 43 in the second mode may be used upside down, which is not described herein again.

Further, in order to facilitate the installation of the adjustment lever 43, the mounting platform 3 is provided with a mounting plate 33 extending downward, the adjustment lever 43 is rotatably mounted on the mounting plate 33, and one end of the adjustment lever 43 is exposed outside the mounting plate 33. Specifically, the mounting plate 33 may be provided with a hole structure for mounting one end of the support adjustment rod 43, and the other end of the adjustment rod 43 is connected to the sliding wedge 41.

Preferably, in order to facilitate the operator to accurately adjust the position of the mounting platform 3 during the movement of the mounting platform 3. The first slide rail 1 is further provided with a ruler 5 for measuring the position of the mounting platform 3, and the mounting platform 3 is further provided with a pointer 34 matched with the ruler. Specifically, ruler 5 is installed on first slide rail 1, is closer to operating personnel one side, like this, more makes things convenient for operating personnel to look over mounting platform 3's displacement to make things convenient for operating personnel quick adjustment mounting platform 3's position.

The above is only a preferred and feasible embodiment of the present invention, and the protection scope of the present invention is not limited. All the equivalent structural changes made by applying the contents of the specification and the drawings of the present invention are included in the protection scope of the present invention.

Claims (7)

1. A hoop bending processing device comprises a rack and a plurality of hoop bending machine heads, wherein the rack comprises a first slide rail and a second slide rail, a plurality of mounting platforms are arranged between the first slide rail and the second slide rail, the mounting platforms can slide on the first slide rail and the second slide rail, and the hoop bending machine heads are fixed on the corresponding mounting platforms; the hoop bending machine is characterized in that a locking assembly is arranged on the mounting platform and comprises a sliding wedge block, a fixed wedge block and an adjusting rod, the fixed wedge block is fixedly arranged on the mounting platform or the hoop bending machine head, the adjusting rod is rotatably arranged on the mounting platform, and the adjusting rod is used for driving the sliding wedge block to slide relative to the mounting platform; the first slide rail is provided with a positioning plate which is obliquely arranged, and the positioning plate is positioned between the inclined surface of the sliding wedge-shaped block and the inclined surface of the fixed wedge-shaped block.

2. The apparatus for processing the bent hoop according to claim 1, wherein a first threaded hole is formed on the sliding wedge-shaped block, and the adjusting rod is provided with a first threaded section matched with the first threaded hole, and the first threaded section is threaded in the first threaded hole.

3. The apparatus for processing bent hoop according to claim 2, wherein the adjusting rod is provided with a second threaded section, the mounting platform is provided with a second threaded hole matched with the second threaded section, the second threaded section is screwed in the second threaded hole, and the second threaded section is opposite to the first threaded section in thread direction.

4. The hoop bending apparatus according to claim 2, wherein the adjusting rod is provided with an annular positioning groove, the mounting platform is provided with a shaft hole, the shaft hole is provided with a protrusion positioning portion engaged with the annular positioning groove, the adjusting rod is inserted into the shaft hole, and the protrusion positioning portion is located in the annular positioning groove.

5. The apparatus for bending hoop processing according to claim 1, wherein the adjustment rod is connected to the sliding wedge and is only rotatable with respect to the sliding wedge; the adjusting rod is provided with a third threaded section, the mounting platform is provided with a third threaded hole matched with the third threaded section, and the third threaded section is in threaded connection with the third threaded hole.

6. The apparatus for processing a bent hoop as set forth in any one of claims 1 to 5, wherein the mounting platform is provided with a mounting plate extending downward, the adjusting lever is rotatably mounted on the mounting plate, and an end portion of the adjusting lever is exposed to an outside of the mounting plate.

7. the apparatus for processing bent hoop according to claim 1, wherein a ruler for measuring the position of the mounting platform is further disposed on the first slide rail, and a pointer engaged with the ruler is further disposed on the mounting platform.