CN111532473A - Deformed steel bar quantitative bundling is with batch equipment - Google Patents

Abstract

The invention relates to batch equipment for bundling, in particular to batch equipment for quantitatively bundling deformed steel bars. The invention provides a batch equipment for quantitatively bundling deformed steel bars, which can bundle the deformed steel bars in batches with equal weight and can fully improve the bundling efficiency of workers. A batch device for quantitatively bundling deformed steel bars comprises a base, a supporting rod and the like; supporting rods are arranged around one side of the top of the base. According to the invention, through the matching of the arc-shaped placing frame and the device thereon, the equipment can equally bundle the deformed steel bars in batches, and workers do not need to judge the bundling weight of the deformed steel bars by a traditional visual measurement method.

Description

Deformed steel bar quantitative bundling is with batch equipment

Technical Field

The invention relates to batch equipment for bundling, in particular to batch equipment for quantitatively bundling deformed steel bars.

Background

The deformed steel bar is commonly known as hot rolled ribbed steel bar and is widely applied to constructional engineering, and for the deformed steel bar which is produced, the surface is easy to corrode due to the characteristics of the deformed steel bar, and according to the prior published Chinese invention: the grant publication number of the deformed steel bar is CN103924189B, which is hereinafter referred to as the first invention.

The first invention mainly introduces a method for solving the problem of corrosion susceptibility of the deformed steel bars through a heat treatment mode, the working efficiency of the heat treatment mode is determined by the stacking density of the deformed steel bars, however, the first invention does not describe in detail how to bundle the deformed steel bars in batches with equal weight to achieve the purpose of improving the working efficiency of the heat treatment mode, and the operation of bundling the deformed steel bars is mainly carried out by means of visual observation of workers, so certain errors are easily generated.

Therefore, it is required to develop a batch apparatus for quantitatively binding deformed steel bars, which can bind deformed steel bars in batches with equal weight and sufficiently improve binding efficiency of workers, to solve the above problems.

Disclosure of Invention

In order to overcome the shortcoming that the thread steel cannot be bundled in batches by equal weight and the bundling efficiency of workers cannot be fully improved, the technical problem is as follows: provided is a batch equipment for quantitatively binding deformed steel bars, which can bind deformed steel bars in batches with equal weight and can sufficiently improve binding efficiency of workers.

A batch device for quantitatively bundling deformed steel bars comprises a base and supporting rods, wherein the supporting rods are arranged on the periphery of one side of the top of the base, and the batch device also comprises an inclined plane guide block, a sliding rod, a pulley, a first compression spring, an arc-shaped placing frame, a second compression spring, an installation rod, an installation seat, a pushing mechanism, an L-shaped grooved rod, a guide rail, a guide strip, a transverse plate, a buffer spring, a driving motor, a shaking device, a fourth compression spring and a pulling mechanism, the top end of the supporting rod is jointly provided with the inclined plane guide block, one side of the inclined plane guide block is provided with the guide block, the guide block is connected with the sliding rod in a sliding manner, the tail end of the sliding rod is provided with the pulley, the first compression spring is connected between the pulley and the guide block, the arc-shaped placing frame is rotatably connected to the top of the sliding rod, the, be equipped with the mount pad on the installation pole, the mount pad front side is equipped with pushing mechanism, and the mount pad front side rotation formula is connected with L type grooved bar, and the base top is equipped with the guide rail, and slidingtype connection has the conducting bar in the guide rail, and conducting bar one side is connected with the diaphragm, is connected with a pair of buffer spring between diaphragm bottom one side and the base top, and the diaphragm top is equipped with driving motor, is equipped with the shake device on the diaphragm, is connected with fourth compression spring between conducting bar and the guide rail, and the conducting bar top is equipped with pulling mechanism, wherein pulling mechanism is used for stimulateeing L type grooved bar, wherein the shake device is used for putting screw-thread steel arrangement and paves, wherein pushing mechanism.

Optionally, the pushing mechanism comprises a guide sleeve, a guide rod, a pushing frame and a third compression spring, the guide sleeve is arranged on the upper portion of the front side of the mounting seat, the guide sleeve is connected with the guide rod in an inward sliding manner, the pushing frame is arranged at one end of the guide rod, and the third compression spring is connected between the pushing frame and the guide sleeve.

Optionally, the pulling mechanism comprises a pull rod, a pull disc, a sleeve rod and an L-shaped rod, the pull rod is connected to the top of the conducting bar, the pull disc is arranged at the top end of the pull rod, the sleeve rod is sleeved on the outer portion of the pull disc in a sliding mode, the sleeve rod is connected with the L-shaped rod, and the L-shaped rod is in sliding fit with the L-shaped rod.

Optionally, the shaking device comprises a guide sleeve, a guide rod, a rack, a wedge, a reset spring and a sector gear, the guide sleeve is arranged on the front side of the transverse plate, the guide rod is connected in the guide sleeve in a sliding mode, the reset spring is connected between the guide rod and the guide sleeve, the rack is arranged at one end of the guide rod, the wedge is arranged at one end of the rack, the sector gear is connected to an output shaft of the driving motor, and the sector gear is meshed with the rack.

Optionally, the support device further comprises a sliding plate, a fifth compression spring, a pillar and a placing plate, the sliding plate is connected to the support rod in a sliding mode, the fifth compression spring is connected between the sliding plate and the support rod, the pillar is arranged at the top of the sliding plate, and the placing plate is arranged at the top of the pillar.

Optionally, the inclined plane guide block comprises a bar-shaped rod and a convex block, the bar-shaped rod is arranged on each of two sides of the inclined plane guide block, and the convex blocks are uniformly distributed on the surface of the bar-shaped rod.

Optionally, the device further comprises a cross rod, a strip-shaped groove is formed in the placing plate, the cross rod is connected in the strip-shaped groove in a distributed mode, and a circular hole is formed in the placing plate.

The invention has the beneficial effects that: according to the invention, through the matching of the arc-shaped placing frame and the device thereon, the equipment can equally bundle the deformed steel bars in batches, workers do not need to judge the bundling weight of the deformed steel bars by a traditional visual measurement method, and the precision degree of quantitative bundling of the deformed steel bars is ensured.

Through the lug, to the impact force of placing the board when further having reduced the screw-thread steel whereabouts, can prevent simultaneously that screw-thread steel and inclined plane guide block friction number of times from leading to the fact inclined plane guide block wearing and tearing too much, improved the life of equipment effectively.

Through the cooperation of the strip-shaped groove and the device thereon, the steel wire rope for binding the deformed steel bar is conveniently laid by a worker in advance, and the effect of improving the binding efficiency of the worker is achieved.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic rear perspective view of the present invention.

Fig. 3 is an enlarged schematic view of the structure of the present invention a.

Fig. 4 is a partial sectional structural schematic view of the present invention.

Fig. 5 is a partial perspective view of the present invention.

Description of reference numerals: 1 base, 2 support rods, 3 inclined plane guide blocks, 4 guide blocks, 5 sliding rods, 6 pulleys, 7 first compression springs, 8 arc-shaped placing frames, 9 second compression springs, 10 mounting rods, 11 mounting seats, 12 guide sleeves, 13 guide rods, 14 pushing frames, 15 third compression springs, 16L-shaped groove rods, 17 guide rails, 18 guide bars, 19 transverse plates, 191 buffer springs, 20 driving motors, 21 shaking devices, 2101 guide sleeves, 2102 guide rods, 2103 racks, 2104 wedge-shaped blocks, 2105 reset springs, 2106 sector gears, 22 fourth compression springs, 23 pull rods, 24 pull disks, 25 sleeve rods, 26L-shaped rods, 27 sliding plates, 28 fifth compression springs, 29 pillars, 30 placing plates, 31 strip-shaped rods, 32 bumps, 33 strip-shaped grooves, 34 cross rods and 35 annular holes.

Detailed Description

The present invention will be further described with reference to specific examples, which are illustrative of the invention and are not to be construed as limiting the invention.

Example 1

A batch device for quantitatively bundling deformed steel bars is disclosed, as shown in figures 1-5, and comprises a base 1, a support rod 2, an inclined plane guide block 3, a guide block 4, a sliding rod 5, a pulley 6, a first compression spring 7, an arc-shaped placing frame 8, a second compression spring 9, a mounting rod 10, a mounting seat 11, a guide sleeve 12, a guide rod 13, a push frame 14, a third compression spring 15, an L-shaped groove rod 16, a guide rail 17, a guide bar 18, a transverse plate 19, a buffer spring 191, a driving motor 20, a shaking device 21, a fourth compression spring 22, a pull rod 23, a pull disc 24, a loop rod 25 and an L-shaped rod 26, wherein the support rod 2 is arranged around one side of the top of the base 1, the inclined plane guide block 3 is arranged at the top end of the inclined plane guide block 3, the sliding rod 5 is connected in the guide block 4 in a sliding manner, the pulley 6 is arranged at the tail end of the sliding rod 5, the first compression spring 7 is connected between, an arc-shaped placing frame 8 is rotatably connected to the top of a sliding rod 5, second compression springs 9 are connected between two sides of the arc-shaped placing frame 8 and two sides of the upper portion of the sliding rod 5, a mounting rod 10 is arranged on the top of a guide block 4, a mounting seat 11 is arranged on the mounting rod 10, a guide sleeve 12 is arranged on the upper portion of the front side of the mounting seat 11, a guide rod 13 is connected in the guide sleeve 12 in a sliding manner, a push frame 14 is arranged at one end of the guide rod 13, a third compression spring 15 is connected between the push frame 14 and the guide sleeve 12, an L-shaped groove rod 16 is rotatably connected to the front side of the mounting seat 11, a guide rail 17 is arranged on the top of a base 1, a guide bar 18 is connected in the guide rail 17 in a sliding manner, a transverse plate 19 is connected to one side of the guide bar 18, a pair of buffer springs 191 is connected between one, the top of the conducting bar 18 is connected with a pull rod 23, the top end of the pull rod 23 is provided with a pull disc 24, the outer part of the pull disc 24 is slidably sleeved with a sleeve rod 25, the sleeve rod 25 is connected with an L-shaped rod 26, and the L-shaped rod 26 is slidably matched with the L-shaped groove rod 16.

The shaking device 21 comprises a guide sleeve 2101, a guide rod 2102, a rack 2103, a wedge-shaped block 2104, a return spring 2105 and a sector gear 2106, the guide sleeve 2101 is arranged on the front side of the transverse plate 19, the guide rod 2102 is connected in the guide sleeve 2101 in a sliding mode, the return spring 2105 is connected between the guide rod 2102 and the guide sleeve 2101, the rack 2103 is arranged at one end of the guide rod 2102, the wedge-shaped block 2104 is arranged at one end of the rack 2103, the sector gear 2106 is connected to an output shaft of the driving motor 20, and the sector gear 2106 is meshed with the rack 2103.

When the deformed steel bars need to be quantitatively bundled, the equipment is placed on the same horizontal position in pairs, then the deformed steel bars are pushed into the arc placing frame 8 one by one through the deformed steel bar pushing equipment, the driving motor 20 is controlled to rotate at the same time, the sector gear 2106 is driven to rotate by the output shaft of the driving motor 20, the sector gear 2106 is matched with the rack 2103 and the device on the sector gear 2106, the wedge 2104 reciprocates left and right, the sliding rod 5 and the device on the sliding rod reciprocate up and down through the matching of the wedge 2104 with the pulley 6 and the device on the sliding rod, the arc placing frame 8 reciprocating up and down orderly arranges and paves the scattered deformed steel bars, the subsequent operation of the equipment is facilitated, the arc placing frame 8 and the device on the sliding rod move down under the action of the deformed steel bars along with the gradual increase of the number of the deformed steel bars in the arc placing frame 8, and further pushes the wedge 2104 and the device on the sliding rod to move down, thereby driving the pull rod 23 and the upper device thereof to move downwards, in the process, the fourth compression spring 22 is stretched, the buffer spring 191 is compressed, when the arc placing frame 8 moves downwards to a certain position, the pull disc 24 pulls the loop bar 25 and the upper device thereof to move downwards, the relative position of the pull disc 24 and the loop bar 25 reserves enough stroke for the equipment, the guide rod 13 and the upper device thereof are pushed to move leftwards through the matching of the L-shaped rod 26 and the L-shaped slot rod 16, the middle part of the arc placing frame 8 is just positioned at the same horizontal line of the pushing frame 14 at the moment, the arc placing frame 8 is pushed to rotate anticlockwise through the pushing frame 14, in the process, the arc placing frame 8 and the upper device thereof continue to move downwards, the second compression springs 9 at two sides are deformed, when the arc placing frame 8 can pour out all the internal thread steel, a worker controls the thread steel pushing equipment to stop pushing the thread steel to the equipment, the poured deformed steel bar slides to the deformed steel bar binding position along the inclined guide block 3, when the deformed steel bar completely leaves the arc placing frame 8, under the action of the buffer spring 191 and the fourth compression spring 22, the sliding rod 5 and the upper device thereof move upwards to reset, the transverse plate 19 and the upper device thereof move upwards to reset, after the arc placing frame 8 resets, a worker controls the deformed steel bar pushing device to continue to push the deformed steel bar to the device again, then the worker rapidly binds the deformed steel bar at the deformed steel bar binding position and then moves away, and after all the deformed steel bars are quantitatively bound, the driving motor 20 is controlled to stop operating.

Example 2

In addition to embodiment 1, as shown in fig. 1, the present invention further includes a sliding plate 27, a fifth compression spring 28, a pillar 29 and a placing plate 30, the sliding plate 27 is slidably connected to the support rod 2, the fifth compression spring 28 is connected between the sliding plate 27 and the support rod 2, the pillar 29 is disposed on the top of the sliding plate 27, and the placing plate 30 is disposed on the top of the pillar 29.

Through placing board 30, be convenient for rationally place the screw-thread steel of ration batching, need not the workman and use other equipment to be used for placing screw-thread steel specially, reduce workman's operating procedure, improved workman's work efficiency, through the cooperation of fifth compression spring 28 and device above that, to placing board 30's impact force when having reduced the screw-thread steel whereabouts effectively, the steady operation of equipment has been guaranteed to a certain extent.

As shown in fig. 1 and fig. 3, the inclined plane guide block further comprises a bar-shaped rod 31 and a convex block 32, the bar-shaped rod 31 is arranged on both sides of the inclined plane guide block 3, and the convex blocks 32 are uniformly distributed on the surface of the bar-shaped rod 31.

Still including horizontal pole 34, it has bar groove 33 to place to open on the board 30, and the distributed connection has horizontal pole 34 in bar groove 33, places and opens the annular hole 35 on the board 30.

Through lug 32, reduced the speed that the screw-thread steel rolled downwards, further reduced the impact force to placing board 30 when the screw-thread steel whereabouts, can prevent simultaneously that screw-thread steel and 3 friction number of times of inclined plane guide block from leading to the fact inclined plane guide block 3 wearing and tearing too much, improved the life of equipment effectively.

Through the cooperation of the strip-shaped groove 33 and the device thereon, the steel wire rope for binding the deformed steel bar is conveniently laid by a worker in advance, and the effect of improving the binding efficiency of the worker is achieved.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (7)

1. A batch device for quantitatively bundling deformed steel bars comprises a base (1) and supporting rods (2), wherein the supporting rods (2) are arranged on the periphery of one side of the top of the base (1), and the batch device is characterized by further comprising an inclined guide block (3), a guide block (4), a sliding rod (5), a pulley (6), a first compression spring (7), an arc-shaped placing frame (8), a second compression spring (9), a mounting rod (10), a mounting seat (11), a pushing mechanism, an L-shaped grooved rod (16), a guide rail (17), a guide bar (18), a transverse plate (19), a buffer spring (191), a driving motor (20), a shaking device (21), a fourth compression spring (22) and a pulling mechanism, wherein the inclined guide block (3) is jointly arranged at the top end of the supporting rod (2), the guide block (4) is arranged on one side of the inclined guide block (3), and the sliding rod (5) is connected in the guide block (4) in, the tail end of the sliding rod (5) is provided with a pulley (6), a first compression spring (7) is connected between the pulley (6) and the guide block (4), the top of the sliding rod (5) is rotatably connected with an arc placing frame (8), second compression springs (9) are connected between two sides of the arc placing frame (8) and two sides of the upper portion of the sliding rod (5), the top of the guide block (4) is provided with an installation rod (10), the installation rod (10) is provided with an installation seat (11), the front side of the installation seat (11) is provided with a pushing mechanism, the front side of the installation seat (11) is rotatably connected with an L-shaped grooved rod (16), the top of the base (1) is provided with a guide rail (17), the guide bar (18) is connected in the guide rail (17) in a sliding manner, one side of the guide bar (18) is connected with a transverse plate (19), a pair of buffer springs (191) is connected between one side of, be equipped with shake device (21) on diaphragm (19), be connected with fourth compression spring (22) between conducting bar (18) and guide rail (17), conducting bar (18) top is equipped with pulling mechanism, wherein pulling mechanism is used for pulling L type groove pole (16), wherein shake device (21) and be used for laying flat the screw-thread steel arrangement, wherein pushing mechanism is used for promoting the arc and places frame (8) anticlockwise rotation.

2. The batch equipment for quantitatively bundling the deformed steel bars according to claim 1, wherein the pushing mechanism comprises a guide sleeve (12), a guide rod (13), a pushing frame (14) and a third compression spring (15), the guide sleeve (12) is arranged at the upper part of the front side of the mounting seat (11), the guide rod (13) is connected to the guide sleeve (12) in an inward sliding manner, the pushing frame (14) is arranged at one end of the guide rod (13), and the third compression spring (15) is connected between the pushing frame (14) and the guide sleeve (12).

3. The batch equipment for quantitatively bundling the deformed steel bars according to claim 2, wherein the pulling mechanism comprises a pull rod (23), a pull disc (24), a sleeve rod (25) and an L-shaped rod (26), the pull rod (23) is connected to the top of the guide bar (18), the pull disc (24) is arranged at the top end of the pull rod (23), the sleeve rod (25) is sleeved outside the pull disc (24) in a sliding manner, the L-shaped rod (26) is connected to the sleeve rod (25), and the L-shaped rod (26) is in sliding fit with the L-shaped grooved rod (16).

4. The batch equipment for quantitatively bundling the deformed steel bars according to claim 3, wherein the shaking device (21) comprises a guide sleeve (2101), a guide rod (2102), a rack (2103), a wedge-shaped block (2104), a return spring (2105) and a sector gear (2106), the guide sleeve (2101) is arranged on the front side of the transverse plate (19), the guide rod (2102) is connected in the guide sleeve (2101) in a sliding mode, the return spring (2105) is connected between the guide rod (2102) and the guide sleeve (2101), the rack (2103) is arranged at one end of the guide rod (2102), the wedge-shaped block (2104) is arranged at one end of the rack (2103), the sector gear (2106) is connected to an output shaft of the driving motor (20), and the sector gear (2106) is meshed with the rack (2103).

5. The batch equipment for quantitatively bundling the deformed steel bars according to claim 4, further comprising a sliding plate (27), a fifth compression spring (28), a pillar (29) and a placing plate (30), wherein the sliding plate (27) is slidably connected to the support rod (2), the fifth compression spring (28) is connected between the sliding plate (27) and the support rod (2), the pillar (29) is arranged at the top of the sliding plate (27), and the placing plate (30) is arranged at the top of the pillar (29).

6. The batch equipment for quantitatively bundling the deformed steel bars according to the claim 5, which is characterized by further comprising bar-shaped rods (31) and convex blocks (32), wherein the bar-shaped rods (31) are arranged on both sides of the inclined guide block (3), and the convex blocks (32) are uniformly distributed on the surface of the bar-shaped rods (31).

7. The batch equipment for quantitatively bundling the deformed steel bars according to the claim 6, which is characterized by further comprising a cross bar (34), wherein the placing plate (30) is provided with a strip-shaped groove (33), the cross bar (34) is connected in the strip-shaped groove (33) in a distributed manner, and the placing plate (30) is provided with a ring-shaped hole (35).

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