CN112224911A - Mechanism is got in connecing when steel reinforcement cage clout cuts - Google Patents

Abstract

The invention relates to a receiving mechanism for cutting excess materials of a reinforcement cage, which comprises a receiving disc, a collecting cabin mechanism and a suspender mechanism, wherein the middle part of the receiving disc is provided with a receiving cabin, the middle part of the receiving cabin is provided with a rectangular notch, a pocket collecting structure is arranged in the rectangular notch, two sides of the receiving cabin are provided with plate moving mechanisms capable of compressing action, two clamping grooves are arranged between the receiving cabin and the receiving disc, the outer end of the plate moving mechanism extends into the clamping grooves, the collecting cabin mechanism comprises a collecting hopper, the top of the collecting cabin mechanism is clamped on a butt plate by utilizing a clamping edge, therefore, the lifting plate can move upwards between grinding rollers after the movable seat mechanism moves along with a caster wheel, one side of a longer section of reinforcement bar received in the collecting cabin is lifted, and the longer section of reinforcement bar can be overturned by the mode, so that concrete layers on the surface of the section of reinforcement bar are better treated by a roller mill, and the surface of the finally collected reinforcing steel bar section is bright, and the reinforcing steel bar section is directly smelted without subsequent cleaning.

Description

Mechanism is got in connecing when steel reinforcement cage clout cuts

Technical Field

The invention relates to the technical field of building construction, in particular to a receiving mechanism for cutting excess materials of a reinforcement cage.

Background

The steel reinforcement cage after concrete placement on the building site need utilize the shearing pliers to cut the steel reinforcement cage top stretch-out section, and the steel reinforcement section that cuts off directly drops and can produce extravagantly in the job site, and the steel reinforcement section size that is cut off a bit is longer, still can retrieve and recycle, and these reinforcing bar surfaces nevertheless leave a large amount of concrete adhesion layers when can be because of concrete placement, need smelt again after the steel reinforcement section is retrieved with the concrete layer processing, lead to follow-up construction work volume than.

Disclosure of Invention

In view of the above, the present invention provides a receiving mechanism for cutting excess material of a reinforcement cage, so as to solve the above problems.

In order to solve the technical problems, the technical scheme of the invention is as follows: a receiving mechanism for cutting excess materials of a reinforcement cage comprises a flange, a collecting cabin mechanism and a suspender mechanism, wherein a storage cabin is arranged in the middle of the flange, a rectangular notch is formed in the middle of the storage cabin, a bag collecting structure is arranged in the rectangular notch, plate moving mechanisms capable of compressing action are arranged on two sides of the storage cabin, two clamping grooves are formed between the storage cabin and the flange, the outer end of each plate moving mechanism extends into the clamping grooves, and the flange can be clamped on reinforcements of the reinforcement cage through the clamping grooves;

the bottom surface of the receiving disc is provided with a butt plate, the collecting cabin mechanism is connected to the butt plate in a plug-in butt joint mode, the collecting cabin mechanism comprises a collecting hopper, the top of the collecting hopper mechanism is clamped on the butt plate by utilizing a clamping edge, bearings are welded on two sides of the bottom of the collecting hopper, a row of toothed rollers meshed together are arranged at the bottom of the collecting hopper through the bearings, driven gears are arranged on the toothed rollers positioned at two end sides, a row of discharging grooves are formed in the bottom of the collecting hopper, grinding rollers are arranged in the middle of the toothed rollers and positioned in the collecting hopper, and the toothed rollers drive the grinding rollers to form roller grinding for removing mud on the surface of a waste steel bar section falling in the collecting hopper;

the boom mechanism is located the bottom surface of collecting bucket, boom mechanism including be used for hoist and mount in boom on the collecting bucket bottom surface, wear the bull stick of dress at jib bottom both ends head and install driving gear and truckle, install the connecting rod structure on one of them bull stick, the driving gear with driven gear belt drive is connected, and when the truckle was rotatory with ground contact, the grinding roller constitutes the grinding roller effect to the reinforcing bar that falls into in collecting bucket through the mode drive grinding roller that driving gear and driven gear drive are connected.

Preferably, the method comprises the following steps: the plate moving mechanism comprises a first moving plate and a second moving plate which are located on two sides of the containing cabin, the first moving plate is connected with the second moving plate through a tension spring, outer end head round corners of the first moving plate and the second moving plate are designed, and the first moving plate and the second moving plate extend into the clamping groove.

Preferably, the method comprises the following steps: the receipts pocket structure comprises receipts pocket and magnet, receive the pocket and constitute by two gauze of connecting in the storage chamber inside groove cabin, magnet is fixed on two gauze internal edges, two the receipts pocket stretch out the back and connect through magnet, has constituted the net formula collecting region that is located storage chamber inside groove cabin, two the receipts pocket retrieve the back and be located the both sides of storage chamber respectively.

Preferably, the method comprises the following steps: the movable base mechanism is installed at the bottom of the collecting bucket and comprises a movable base, a guide groove and guide columns, the guide groove is formed in the hanging rod, the guide columns are arranged in four positions, two positions are formed in the front end face of the movable base, two positions are formed in the rear end face of the movable base, and the movable base is installed on the hanging rod through the guide columns and the guide groove.

Preferably, the method comprises the following steps: the movable base is positioned at the bottom side of the discharge groove, the top arc-shaped surface of the movable base is designed, the other end of the connecting rod structure is installed on the outer wall of the movable base in a sliding rail connection mode, and the caster wheel drives the connecting rod structure to drive the movable base to move up and down when rotating.

Preferably, the method comprises the following steps: the side part of the top surface of the movable seat is provided with a synchronous plate mechanism, and the synchronous plate mechanism is provided with a lifting plate which can synchronously move up and down.

Preferably, the method comprises the following steps: a clearance which is one centimeter and used for forming a friction space when the surface of the steel bar is rubbed and dropping mud materials downwards is reserved between the two adjacent grinding rollers.

Preferably, the method comprises the following steps: the top surface arc design of lifter plate, the lifter plate upwards stretches into between two grinding rollers that face on the leftmost side.

The technical effects of the invention are mainly reflected in the following aspects:

1. this device comprises flange and portable collection cabin, two kinds of using-way have been constituted, when the flange area was collected the cabin and is used jointly, can be near the pulling of making a round trip of rolling mode position reinforcing bar cage, when constructor sheared the reinforcing bar section, the reinforcing bar section of shearing can drop in the flange, demonstrate portable using-way, the shearing that is adapted to long distance and lower position department reinforcing bar section is got with connecing, when taking off the flange and using alone, still be adapted to the shearing of the higher position section of reinforcing bar cage and connect and get, better nimble practicality has.

2. The grinding roller is arranged at the bottom of the collecting cabin, the grinding roller is linked by using a linkage gear, when the grinding roller is actually used, the grinding roller in the collecting cabin can rotate along with the movement of the caster, and after the surplus steel bar sections at the top of the steel bar cage are sheared by constructors, the steel bar sections can fall into the collecting cabin and fall off downwards along with the mud and concrete adhering layer left by the steel bar sections during pouring construction when the steel bar sections move along with the collecting cabin.

3. Still be provided with at collection cabin bottom and can shift a seat mechanism, this can shift a seat mechanism and connect on the bull stick that the truckle is located through link mechanism, the connecting rod can link when rotatory along with the truckle can shift a seat mechanism and upwards move, but can shift a seat mechanism utilizes a lifter plate to stretch into collection cabin one side again, can make the lifter plate upwards move between the grinding roller after consequently shifting a seat mechanism and moving along with the truckle, lift one side of the longer section reinforcing bar of receiving in the collection cabin, can make longer reinforcing bar section upset through this kind of mode, make the better by the grinding roller of concrete layer on reinforcing bar section surface handle from this, the reinforcing bar section surface that finally collects is bright, need not follow-up clearance, direct smelting can.

Drawings

FIG. 1: the invention relates to a schematic diagram of a receiving mechanism when cutting excess materials of a reinforcement cage;

FIG. 2: the bottom elevation view angle schematic diagram of the receiving mechanism during cutting of excess materials of the reinforcement cage

FIG. 3: the invention discloses a structural schematic diagram of a movable seat mechanism of a receiving mechanism when excess materials of a reinforcement cage are cut;

FIG. 4: the invention discloses a structural schematic diagram of a receiving mechanism in cutting excess materials of a reinforcement cage after disassembly;

FIG. 5: the invention has a structure schematic diagram of a bottom visual angle after removing each mechanism of a containing cabin;

FIG. 6: the structure of the plate moving mechanism is schematic;

FIG. 7: the invention is a schematic structural diagram of a main view plane;

FIG. 8: the invention is a schematic structural view of a part A in section plane, which is drawn from figure 7.

1. Receiving a plate; 2. a storage compartment; 201. a clamping groove; 3. a plate moving mechanism; 301. a first moving plate; 302. a second moving plate; 303. a tension spring; 304. a card slot; 4. a bag collecting structure; 5. a butt plate; 6. a collection chamber mechanism; 601. a collecting hopper; 602. a bearing; 603. a discharge chute; 604. a toothed roller; 605. a driven gear; 7. a boom mechanism; 701. a boom; 702. a rotating rod; 703. a driving gear; 704. a caster wheel; 705. a connecting rod structure; 8. a movable seat mechanism; 801. a movable seat; 802. a guide groove; 803. a guide post; 9. a synchronization plate mechanism; 901. a lifting plate; 10. and (4) grinding the roller.

Detailed Description

The following detailed description of the present invention is provided in conjunction with the accompanying drawings 1-8 to make the technical solution of the present invention easier to understand and grasp.

A receiving mechanism for cutting excess materials of a reinforcement cage comprises a receiving disc 1, a collecting cabin mechanism 6 and a suspender mechanism 7, wherein a receiving cabin 2 is arranged in the middle of the receiving disc 1, a rectangular notch is formed in the middle of the receiving cabin 2, a pocket collecting structure 4 is arranged in the rectangular notch, plate moving mechanisms 3 capable of performing compression action are arranged on two sides of the receiving cabin 2, two clamping grooves 201 are formed between the receiving cabin 2 and the receiving disc 1, the outer end of the plate moving mechanism 3 extends into the clamping grooves 201, the receiving disc 1 can be clamped on reinforcements of the reinforcement cage through the clamping grooves 201, the receiving mechanism formed by the receiving disc 1, the receiving cabin 2, the plate moving mechanism 3 and the pocket collecting structure 4 is used independently when being dismounted from the whole device, the top structure when being used independently after being dismounted is shown in figure 4, the device formed at the moment can be clamped on the reinforcements of the reinforcement cage through the clamping grooves 201 and is suitable for cutting the top section of a higher reinforcement cage, the functionality is improved.

The bottom surface of the receiving disc 1 is provided with a butt joint plate 5, the collecting cabin mechanism 6 is connected on the butt joint plate 5 in a plug-in butt joint mode, the collecting cabin mechanism 6 comprises a collecting hopper 601, the top of the collecting cabin mechanism 6 is clamped on the butt joint plate 5 by utilizing a clamping edge, two sides of the bottom of the collecting hopper 601 are welded with bearings 602, a row of toothed rollers 604 meshed together are arranged at the bottom of the collecting hopper 601 through the bearings 602, driven gears 605 are arranged on the toothed rollers 604 at two end sides, a row of discharging grooves 603 are arranged at the bottom of the collecting hopper 601, grinding rollers 10 are arranged in the middle of the toothed rollers 604, the grinding rollers 10 are positioned in the collecting hopper 601, the toothed rollers 604 drive the grinding rollers 10 to form roller grinding for removing mud on the surface of a waste steel bar section falling in the collecting hopper 601, the functional activity of the existing collecting cabin mechanism 6 is improved, when the collecting cabin mechanism 6 is butted at the bottom in actual use, the device can be enabled to have the, be adapted to shearing and the connecing of lower position department reinforcing bar section this moment, make the reinforcing bar section of reinforcing bar cage top section reach the purpose of moving limit and connect the usefulness, the reinforcing bar cage top section reinforcing bar drops in the collection fill 601 after being sheared, the reinforcing bar section rolling friction who will connect the usefulness when grinding roller 10 is rotatory again, make reinforcing bar section surface drop by the roller mill because of the adnexed concrete layer when the watering construction, and for improving the structural rationality, to falling off the mud material when facing the reinforcing bar section roll-in between two grinding rollers 10 mutually, and be convenient for polish the processing, it forms the clearance that the friction space just drops the mud material downwards to face between two grinding rollers 10 to face mutually to leave a centimetre.

The suspender mechanism 7 is positioned on the bottom surface of the collecting hopper 601, the suspender mechanism 7 comprises a suspender 701 for being hung on the bottom surface of the collecting hopper 601, and rotating rods 702 which are penetrated at two ends of the bottom of the suspender 701 and are provided with a driving gear 703 and casters 704, wherein a connecting rod structure 705 is arranged on one rotating rod 702, the driving gear 703 is in transmission connection with a driven gear 605, when the casters 704 are in contact rotation with the ground, the grinding roller 10 is driven by the driving gear 703 in transmission connection with the driven gear 605 to form a roller grinding effect on steel bars falling in the collecting hopper 601, so that a moving mechanism positioned at the bottom side of the collecting hopper 601 is formed, when the device is assembled and used by utilizing the casters 704, the device has moving characteristics and is convenient to use, and when moving, the driving gear on the rotating rod 702 is also utilized to drive the driven gear 605 to rotate, finally, the grinding roller 703 rolls and grinds and falls off a cement layer outside a section where the steel bars are taken, and the rotating action of the driving gear 703, therefore, the grinding roller 10 in the collecting hopper 601 rotates by virtue of the caster wheel 704, so that the grinding roller 10 does not need an electric energy mechanism, and the structural design is ingenious and reasonable.

As shown in fig. 4 and 6, the plate moving mechanism 3 includes a first moving plate 301 and a second moving plate 302 located at two sides of the receiving compartment 2, the first moving plate 301 and the second moving plate 302 are connected by a tension spring 303, the outer ends of the first moving plate 301 and the second moving plate 302 are rounded, and the first moving plate 301 and the second moving plate 302 extend into the clamping groove 201, after the bottom collecting cabin mechanism 6 is removed, the top structures are used independently, the weight is light, when the top structure is used independently, the disassembled top structure is clamped on the steel bars of the steel bar cage by the two clamping grooves 201, at the moment, the first moving plate 301 and the second moving plate 302 are extruded inwards, since the first moving plate 301 and the second moving plate 302 are coupled to each other by the tension spring 303 and are coupled to the receiving chamber 2, therefore, after the first moving plate 301 and the second moving plate 302 are ejected outwards, the top section can be ejected to the reinforcing steel bar section for fixation when being used alone, and the top section has good ejecting and pressing characteristics.

Specifically, the method comprises the following steps: receive a bag structure 4 and constitute by receiving bag 401 and magnet 402, receive bag 401 and constitute by two connections at the gauze of 2 inside groove cabins of containing cabin, magnet 402 is fixed on two gauze internal edges, two receive bag 401 and connect through magnet 402 after stretching out, the net type collecting area that is located 2 inside groove cabins of containing cabin has been formed, two receive bag 401 and retrieve the back and be located the both sides of containing cabin 2 respectively, when making the top section mechanism of splice tray 1 class of constitution use alone, pull out two receipts bag 401 from containing cabin 2, connect through magnet 402, bottom when having constituted this position section and using alone connects and gets the structure, when operating personnel held this part section and used alone, collect the reinforcing bar section that will cut in the receipts bag 401 after the butt joint.

As shown in fig. 3, a movable seat mechanism 8 is installed at the bottom of a collecting bucket 601, the movable seat mechanism 8 includes a movable seat 801, a guide groove 802 and guide posts 803, the guide groove 802 is opened on a suspension rod 701, the guide posts 803 are four, two are installed on the front end surface of the movable seat 801, two are installed on the rear end surface of the movable seat 801, the movable seat 801 is installed on the suspension rod 701 through the guide posts 803 and the guide grooves 802, the movable seat 801 is located at the bottom side of a discharge groove 603, and the top arc surface of the movable seat 801 is designed, the other end of a link structure 705 is installed on the outer wall of the movable seat 801 through a sliding rail connection, when a caster 704 rotates, the link structure 705 is driven by a rotating rod 702 to drive the movable seat 801 to move up and down, a synchronous plate mechanism 9 is further installed at the top of the movable seat 801 for moving up and down, a lifting plate 901 for synchronous moving up and down, the lifting plate 901 extends upwards into the space between two adjacent grinding rollers 10 on the leftmost side, so that when the lifting plate 901 on one side is lifted up, one side of a reinforcing steel bar section received in the collecting hopper 601 is lifted up, the reinforcing steel bar section is rolled through the arc-shaped surface on the top of the lifting plate 901, the reinforcing steel bar section is forced to roll and turn, and therefore the reinforcing steel bar section falling between the two adjacent grinding rollers 10 is turned and rolled, so that a concrete layer on the surface of the reinforcing steel bar section is better subjected to roller grinding treatment by the grinding rollers 10, the surface of the finally collected reinforcing steel bar section is brighter without subsequent cleaning, and the reinforcing steel bar section is directly smelted in a furnace.

Only keep top section structure when in actual use, if the steel reinforcement cage of building site is higher, the steel reinforcement cage top surplus section position after the construction finishes is just lower, demolish collecting chamber mechanism 6 downwards by the bottom of buttjunction plate 5 this moment, utilize screens groove 201 to connect the structure card of getting in the top and put on the steel reinforcement cage, first movable plate 301 and the second movable plate 302 that outwards stretches out this moment will be with this part of section card and put on the steel reinforcement cage, and still can be convenient for adjust according to the high position of steel reinforcement cage, pull out two receipts pockets 401 from accomodating 2, connect through magnet 402, bottom when having constituted this part of section and using alone is received and is got the structure, when operating personnel holds this part of section and uses alone, collect the steel reinforcement section that will cut in receipts pocket 401 after the butt joint.

If the steel reinforcement cage of a building site is low, the collecting bag 401 is recovered into the collecting cabin 2, when the collecting cabin mechanism 6 and each structure at the bottom are connected and used through the butt-joint plate 5, the collecting cabin mechanism is positioned near the steel reinforcement cage, the truckles 704 are contacted with the ground and are displaced, the purpose of collecting steel reinforcement sheared sections while moving is achieved, the steel reinforcement sections collected by the collecting cabin 2 drop into the collecting hopper 601 at the bottom from the middle inner frame, the truckles 704 rotate while moving, the rotating truckles 704 drive the gear rollers 604 to rotate through the driving gears 703, the rotating gear rollers 604 drive the grinding rollers 10 at the inner ends to rotate, the device applied at the moment can also use the rolling grinding rollers 10 to grind the collected steel reinforcement sections, the concrete roller on the surfaces of the collected steel reinforcement sections drops, the surfaces of the collected steel reinforcement sections are bright finally, subsequent cleaning is not needed, direct smelting can be achieved, and the functionality is improved, the two using modes also improve the practicability.

The above are only typical examples of the present invention, and besides, the present invention may have other embodiments, and all the technical solutions formed by equivalent substitutions or equivalent changes are within the scope of the present invention as claimed.

Claims (8)

1. The utility model provides a mechanism is got in connecing when steel reinforcement cage clout cuts, includes flange (1), collection cabin mechanism (6) and jib mechanism (7), its characterized in that: the middle part of the receiving disc (1) is provided with a receiving cabin (2), the middle part of the receiving cabin (2) is provided with a rectangular notch, a pocket collecting structure (4) is arranged in the rectangular notch, two sides of the receiving cabin (2) are provided with plate moving mechanisms (3) capable of performing compression action, two clamping grooves (201) are formed between the receiving cabin (2) and the receiving disc (1), the outer end of each plate moving mechanism (3) extends into each clamping groove (201), and the receiving disc (1) can be clamped on a steel bar of a steel bar cage through each clamping groove (201);

the bottom surface of the flange (1) is provided with a butt plate (5), the collecting cabin mechanism (6) is connected on the butt plate (5) in a plug-in butt joint mode, the collecting cabin mechanism (6) comprises a collecting hopper (601) which is arranged on the butt joint plate (5) in a clamping way at the top by utilizing a clamping edge, two sides of the bottom of the collecting hopper (601) are welded with bearings (602), a row of toothed rollers (604) meshed together are arranged at the bottom of the collecting bucket (601) through a bearing (602), driven gears (605) are arranged on the toothed rollers (604) positioned at two end sides, a row of discharge grooves (603) are formed in the bottom of the collecting hopper (601), grinding rollers (10) are arranged in the middle of the toothed rollers (604), the grinding roller (10) is positioned in the collecting hopper (601), and the gear roller (604) drives the grinding roller (10) to form roller grinding removal on the mud on the surface of the waste steel bar section falling in the collecting hopper (601);

the suspension rod mechanism (7) is located on the bottom surface of the collecting hopper (601), the suspension rod mechanism (7) comprises a suspension rod (701) used for being hung on the bottom surface of the collecting hopper (601), and a rotating rod (702) which is arranged at two ends of the bottom of the suspension rod (701) in a penetrating mode and provided with a driving gear (703) and a caster (704), wherein a connecting rod structure (705) is arranged on the rotating rod (702), the driving gear (703) is in transmission connection with the driven gear (605), and when the caster (704) is in contact rotation with the ground, the grinding roller (10) is driven to form a roller grinding effect on reinforcing steel bars falling in the collecting hopper (601) in a transmission connection mode through the driving gear (703) and the driven gear (605).

2. The receiving mechanism for cutting reinforcement cage remnants as claimed in claim 1, wherein: move board mechanism (3) including being located first movable plate (301) and second movable plate (302) of containing cabin (2) both sides, first movable plate (301) with second movable plate (302) are connected through extension spring (303), the design of outer terminal fillet of first movable plate (301) and second movable plate (302), and first movable plate (301) and second movable plate (302) stretch into clamping groove (201), fixed slot (304) in the steel reinforcement cage outside are still seted up to the inner end of first movable plate (301) and second movable plate (302).

3. The receiving mechanism for cutting reinforcement cage remnants as claimed in claim 1, wherein: receive pocket structure (4) and constitute by receipts pocket (401) and magnet (402), receipts pocket (401) are connected by two and are constituteed at the inboard gauze of accomodating (2) inside groove by the gauze, magnet (402) are fixed on the border in two gauzes, two receipts pocket (401) stretch out the back and connect through magnet (402), have constituted the net formula collecting region that is located the inside groove of accomodating (2) cabin, two receipts pocket (401) retrieve the back and be located the both sides of accomodating (2) respectively.

4. The receiving mechanism for cutting reinforcement cage remnants as claimed in claim 1, wherein: the bottom of the bucket (601) is provided with a movable base mechanism (8), the movable base mechanism (8) comprises a movable base (801), a guide groove (802) and guide columns (803), the guide groove (802) is arranged on the hanger rod (701), the guide columns (803) are arranged in four places, two places are arranged on the front end face of the movable base (801), two places are arranged on the rear end face of the movable base (801), and the movable base (801) is arranged on the hanger rod (701) through the guide columns (803) and the guide groove (802).

5. The receiving mechanism for cutting the excess material of the reinforcement cage as claimed in claim 4, wherein: the movable base (801) is located on the bottom side of the discharge groove (603), the top arc-shaped surface of the movable base (801) is designed, the other end of the connecting rod structure (705) is installed on the outer wall of the movable base (801) in a sliding rail connection mode, and the connecting rod structure (705) is driven by the rotating rod (702) to drive the movable base (801) to move up and down when the caster (704) rotates.

6. The receiving mechanism for cutting the excess material of the reinforcement cage as claimed in claim 5, wherein: a synchronous plate mechanism (9) is arranged on the side part of the top surface of the movable seat (801), and a lifting plate (901) which synchronously moves in an undulation manner is arranged on the synchronous plate mechanism (9).

7. The receiving mechanism for cutting the excess material of the reinforcement cage as claimed in claim 6, wherein: a gap which is one centimeter and used for forming a friction space when the surface of the steel bar is rubbed and dropping mud materials downwards is reserved between the two adjacent grinding rollers (10).

8. The receiving mechanism for cutting the excess material of the reinforcement cage as claimed in claim 7, wherein: the top surface of the lifting plate (901) is designed in an arc shape, and the lifting plate (901) extends upwards into the space between two adjacent grinding rollers (10) at the leftmost side.

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