CN211517462U - Longitudinal bar placing frame and reinforcing cage manufacturing production line - Google Patents

Abstract

The utility model relates to a steel reinforcement cage makes technical field, provide a vertical muscle puts frame and steel reinforcement cage manufacturing line, vertical muscle puts the frame and includes supporting component, puts subassembly and pay-off subassembly, it includes slide structure, restriction structure and blocks the structure to put the subassembly, the front end of slide structure is relative to the rear end downward sloping setting of slide structure, each vertical muscle can slide to the front end of slide structure and be blockked by blocking the structure from the rear end of slide structure, restriction structure is used for limiting each vertical muscle of piling up when each vertical muscle slides down along slide structure and passes through; the feeding assembly comprises a feeding supporting piece, a feeding driver and a feeding fixing piece, the feeding driver is used for driving the feeding supporting piece to lift, the feeding fixing piece is used for fixing the feeding driver, and the feeding supporting piece can push a longitudinal rib blocked by the blocking structure under the driving of the feeding driver. This indulge muscle and put frame can avoid getting more and indulge the condition of muscle and take place, and it has improved the convenience of acquireing of indulging the muscle to the manufacturing efficiency of steel reinforcement cage has been improved to a certain extent.

Description

Longitudinal bar placing frame and reinforcing cage manufacturing production line

Technical Field

The utility model relates to a steel reinforcement cage makes technical field, especially relates to a indulge muscle and put frame and use this steel reinforcement cage manufacturing line who indulges muscle and put frame.

Background

The longitudinal bars are the main stressed steel bars arranged in the direction parallel to the concrete member, and are one of the important components of the steel reinforcement cage. Conventionally, before the reinforcement cage manufacturing operation is performed, longitudinal bars are taken one by one and transferred to a proper position to wait for the operation. However, in the related industry, the longitudinal bars are often placed on the longitudinal bar placing frame in a stacking manner, so that the situation that operators and/or manipulators take more longitudinal bars is easy to occur when the longitudinal bars are obtained, and particularly, the manipulator is not favorable for obtaining the longitudinal bars one by one, which not only causes certain negative effects on the manufacturing efficiency of the reinforcement cage, but also is not favorable for the directional development of the automation trend of the reinforcement cage manufacturing.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a indulge muscle and put frame aims at solving and indulges the muscle now and puts the frame and pile up many and indulge the muscle, causes operating personnel and/or manipulator easily to get the problem of indulging the muscle when acquireing the muscle more.

In order to achieve the above object, the utility model adopts the following technical scheme: a vertical bar placing frame is used for placing vertical bars, and comprises:

a support assembly;

the placing assembly is provided with at least one placing assembly, the placing assembly comprises at least two slide way structures arranged from left to right at intervals, at least two limiting structures which are respectively arranged with the slide way structures in an up-and-down alignment mode and are arranged at intervals, and at least two blocking structures which are arranged from left to right at intervals and are arranged on the front sides of the slide way structures, the front ends of the slide way structures are arranged in a downward inclination mode relative to the rear ends of the slide way structures, each longitudinal rib can slide to the front ends of the slide way structures from the rear ends of the slide way structures and is blocked by the blocking structures, and the limiting structures are used for limiting the stacked longitudinal ribs to pass through when the longitudinal ribs slide along the slide way structures;

the feeding assembly comprises a feeding supporting piece, a feeding driver used for driving the feeding supporting piece to lift and a feeding fixing piece used for fixing the feeding driver, wherein the feeding supporting piece can push one longitudinal rib blocked by the blocking structure under the driving of the feeding driver.

Further, the blocking structure is provided with a blocking surface used for blocking the longitudinal rib, and the blocking surface is obliquely arranged relative to the horizontal plane.

Further, the angle value of the included angle formed between the blocking surface and the horizontal plane is 45 degrees.

Furthermore, the feeding support piece is obliquely arranged relative to the horizontal plane, and the front side face and the rear side face of the feeding support piece are both arranged in parallel with the blocking face.

Further, pay-off support piece include the pay-off support body, connect in the pay-off support body upside first clamping structure and with the second clamping structure that first clamping structure symmetry set up, first clamping structure with second clamping structure is used for the centre gripping jointly and supports one indulge the muscle, first clamping structure have be used for with indulge the first clamping face of muscle contact, second clamping structure have be used for with indulge the second clamping face of muscle contact, first clamping face with the crossing setting of second clamping face.

Further, the angle value of an included angle formed between the first clamping surface and the second clamping surface is 90-120 degrees.

Furthermore, the placing assembly further comprises at least one abutting structure arranged at an interval with the slide way structure, and the abutting structure is used for abutting one end of each longitudinal rib when each longitudinal rib slides along the slide way structure.

Further, the slide structure is equipped with two, limit structure is equipped with two, it is equipped with two to block the structure, two distance between the slide structure equals two-thirds of the length of indulging the muscle, two it sets up and locates two to block the structure from a left side turn right interval between the slide structure.

Furthermore, the number of the feeding assemblies is equal to twice the number of the placing assemblies, and the feeding assemblies are arranged between the slide rail structure and the blocking structure.

Another object of the utility model is to provide a steel reinforcement cage manufacturing line for make the steel reinforcement cage, include the vertical muscle put the frame.

The utility model has the advantages that:

the utility model provides a vertical bar shelf supports respectively through the supporting component and puts subassembly and each pay-off subassembly earlier, and then puts the subassembly and makes each vertical bar present neat, tiling mode of putting through the pendulum, specifically speaking, through placing each vertical bar in the rear end department of slide track structure, can make each vertical bar follow the slide track structure and slide downwards and finally block it by blockking the structure, and under the effect of restriction structure, each vertical bar will present neatly arranged, tiling state of putting between restriction structure and slide track structure; and finally, the feeding driver drives the feeding support piece to rise, so that the single longitudinal rib can be pushed and supported one by one, operators and/or manipulators can conveniently acquire the longitudinal rib one by one, and the situation of taking more longitudinal ribs can be avoided. This indulge muscle and put frame can avoid operating personnel and/or manipulator to get the condition emergence of indulging the muscle more when acquireing the muscle of indulging, and it has improved the acquisition convenience of indulging the muscle to the manufacturing efficiency of steel reinforcement cage has been improved to a certain extent.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the embodiments or the prior art descriptions will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without inventive labor.

Fig. 1 is a schematic perspective view of a longitudinal bar placing rack provided in an embodiment of the present invention;

FIG. 2 is an enlarged view of the area A of the longitudinal bar holding frame shown in FIG. 1;

FIG. 3 is an enlarged view of the area B of the longitudinal bar holding frame shown in FIG. 1;

fig. 4 is a schematic perspective view of a feeding assembly according to an embodiment of the present invention.

Wherein, in the figures, the respective reference numerals:

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are merely for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

It should be further noted that, in the embodiment of the present invention, the XYZ rectangular coordinate system established in fig. 1 is defined: one side in the positive direction of the X axis is defined as the front, and one side in the negative direction of the X axis is defined as the back; one side in the positive Y-axis direction is defined as the left side, and one side in the negative Y-axis direction is defined as the right side; the side in the positive direction of the Z axis is defined as the upper side, and the side in the negative direction of the Z axis is defined as the lower side.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

The following describes the specific implementation of the present invention in more detail with reference to specific embodiments:

referring to fig. 1-3, an embodiment of the present invention provides a longitudinal bar placing rack for placing longitudinal bars, the longitudinal bar placing rack includes a supporting component 100, a placing component 200, and a feeding component 300. It should be noted that the supporting component 100 includes a plurality of supporting profiles 110 connected to each other and a plurality of connecting members 120 for connecting the two supporting profiles 110 to fix the two supporting profiles 110 to each other, and the supporting component 100 can be used for supporting the placing component 200 and the feeding component 300.

Wherein, it is equipped with at least one to put subassembly 200, it includes that at least two move the slide structure 210 that the right interval set up from a left side to put subassembly 200, at least two are counterpointed the setting from top to bottom and are set up the limit structure 220 that the interval set up with each slide structure 210 respectively, and at least two move the right interval from a left side and set up and locate the barrier structure 230 of the front side of slide structure 210, the front end of slide structure 210 sets up the rear end downward sloping relative to slide structure 210, each is indulged the muscle and can be followed the rear end of slide structure 210 and slided to the front end of slide structure 210 and blockked by barrier structure 230, limit structure 220 is used for when each is indulged the muscle and is followed slide structure 210 landing.

It should be noted that, at least one placing assembly 200 is provided, and one placing assembly 200 can be used to make a group of longitudinal bars (the longitudinal bars can be divided according to the radial size and length of the longitudinal bars) present a neat and flat placing manner, that is, the number of the placing assemblies 200 should be set according to the number of categories into which the longitudinal bars are divided. Optionally, when there are more than two placing assemblies 200, each placing assembly 200 is spaced from top to bottom. In a placing assembly 200, at least two slide rail structures 210 should be arranged to form a certain supporting force at two supporting points for each longitudinal rib placed on the slide rail structures 210, so that each longitudinal rib is in a relatively stable state, and the situation that each longitudinal rib is tilted, unstable, falls off from the side and the like is avoided. Subsequently, based on the arrangement that the front end of the slide structure 210 is inclined downwards relative to the rear end of the slide structure 210, the longitudinal ribs placed on the slide structure 210 can slide downwards along the slide structure 210 under the action of gravity and friction force, and under the limiting action of the limiting structures 220 which are arranged in an up-and-down alignment manner and are arranged at intervals with the slide structure 210, the longitudinal ribs can only slide downwards along the channel between the slide structure 210 and the limiting structures 220 in sequence in a single-row arrangement state, and the longitudinal ribs stacked on other longitudinal ribs cannot directly pass through under the limitation of the limiting structures 220, so that the longitudinal ribs are orderly arranged and flatly placed. Specifically, by setting the distance between the limiting structure 220 and the chute structure 210 to be greater than or equal to the radial dimension of one longitudinal rib and less than the sum of the radial dimensions of two longitudinal ribs, the channel through which a single longitudinal rib can pass can be retained between the limiting structure 220 and the chute structure 210, and the longitudinal ribs stacked on other longitudinal ribs can be limited to synchronously pass through the channel, so that the effect of orderly and flatly arranging the longitudinal ribs can be realized. The blocking structure 230 disposed at the front side of the slide structure 210 can block the longitudinal bars sliding to the front side of the slide structure 210 first, so that the placing assembly 200 can be prevented from falling out of the longitudinal bars from the front side of the slide structure 210, and the longitudinal bars can be in a relatively stable state before being obtained. Additionally, the blocking structure 230 may not be aligned with the chute structure 210.

The feeding assembly 300 includes a feeding support member 310, a feeding driver 320 for driving the feeding support member 310 to move up and down, and a feeding fixing member 330 for fixing the feeding driver 320, wherein the feeding support member 310 is capable of pushing a longitudinal rib blocked by the blocking structure 230 under the driving of the feeding driver 320.

It should be noted that the connection between the feeding driver 320 and the supporting member 100 can be realized by the feeding fixing member 330. When each longitudinal rib slides along the channel between the limiting structure 220 and the slideway structure 210 in sequence and at least one longitudinal rib is blocked by the blocking structure 230, the feeding driver 320 can drive the feeding support member 310 to ascend, so that one longitudinal rib positioned on the upper side of the feeding support member 310 can be pushed and supported, at the moment, the rear side surface of the feeding support member 310 replaces the blocking structure 230 to block the rest longitudinal ribs, the longitudinal ribs positioned on the feeding support member 310 are in an isolated state relative to the rest longitudinal ribs, and at the moment, an operator and/or a manipulator acquires the longitudinal ribs on the feeding support member 310, so that the situation that more longitudinal ribs are taken can be avoided, and the longitudinal ribs are favorably acquired one by one; after the longitudinal ribs on the feeding support member 310 are obtained, the feeding driver 320 can drive the feeding support member 310 to descend (reset), at this time, the feeding support member 310 will release its blocking effect on each longitudinal rib, and each longitudinal rib will be repaired under the action of gravity and blocked by the blocking structure 230. Therefore, the longitudinal bars can be sequentially pushed and supported one by one, so that operators and/or manipulators can conveniently obtain the longitudinal bars one by one, the situation that the operators and/or the manipulators (particularly the manipulators) obtain more longitudinal bars when obtaining the longitudinal bars is avoided to a great extent, the acquisition convenience of the longitudinal bars and the manufacturing efficiency of the reinforcement cage are improved, and the steel reinforcement cage manufacturing trend towards automation development is facilitated.

The embodiment of the utility model provides a indulge muscle and put frame supports respectively through supporting component 100 and puts subassembly 200 and each pay-off subassembly 300 earlier, and then put subassembly 200 through the pendulum and make respectively indulge the muscle and present neat, tiling mode of putting, specifically speaking, through placing respectively indulge the muscle in the rear end department of slide structure 210, can make respectively indulge the muscle and follow the situation and descend and finally block it by blockking structure 230 along slide structure 210, and under the effect of restriction structure 220, respectively indulge the muscle and will present neatly arranged, tiling state of putting between restriction structure 220 and slide structure 210; finally, the feeding driver 320 drives the feeding support member 310 to ascend, so that the single longitudinal rib can be pushed and supported one by one, operators and/or mechanical hands can conveniently obtain the longitudinal rib one by one, and the situation that the longitudinal rib is taken too much can be avoided. This indulge muscle and put frame can avoid operating personnel and/or manipulator to get the condition emergence of indulging the muscle more when acquireing the muscle of indulging, and it has improved the acquisition convenience of indulging the muscle to the manufacturing efficiency of steel reinforcement cage has been improved to a certain extent.

It is supplementary to explain that, a certain space is left between the rear end of the limiting structure 220 and the rear end of the slideway structure 210 to serve as the feed inlet 201 of each longitudinal rib, the batch longitudinal ribs are stacked at the feed inlet 201, each longitudinal rib can automatically and sequentially slide along the channel between the limiting structure 220 and the slideway structure 210, and the longitudinal rib placing frame has higher use convenience.

Referring to fig. 1-3, in the present embodiment, the blocking structure 230 has a blocking surface 231 for blocking the longitudinal rib, and the blocking surface 231 is disposed obliquely with respect to the horizontal plane. It should be noted that, based on the inclined arrangement of the blocking surface 231 relative to the horizontal plane, on one hand, the blocking surface 231 inclined relative to the horizontal plane can generate an acting force perpendicular to the blocking surface 231 on the longitudinal rib, and based on the acting force, the gravity applied to the longitudinal rib and the extrusion force applied to the longitudinal rib by the other longitudinal ribs can be counteracted and balanced, so as to form a more powerful blocking effect on each longitudinal rib; on the other hand, the inclined surface can prevent the longitudinal ribs from stacking on the front side of the slideway structure 210, thereby being beneficial to maintaining the flat laying state of the longitudinal ribs.

Referring to fig. 1-3, in the present embodiment, the angle between the blocking surface 231 and the horizontal plane is 45 °. It should be noted that, based on the above arrangement, on one hand, an angle value of an included angle formed between an acting force generated by the blocking surface 231 on the longitudinal rib and a gravity borne by the longitudinal rib is relatively constant, so that after the gravity of the longitudinal rib is balanced, the acting force has a proper component force for offsetting and balancing an extrusion force given to the longitudinal rib by the other longitudinal ribs, and thus, a blocking effect on each longitudinal rib can be further ensured; on the other hand, because the blocking surface 231 has a certain inclination, the longitudinal ribs cannot climb onto the blocking surface 231 under the action of the extrusion force without stable and powerful supporting force, so that the stacking phenomenon of the longitudinal ribs on the front side of the slideway structure 210 can be further prevented, and the flat laying state of the longitudinal ribs can be maintained.

Referring to fig. 1-3, in the present embodiment, the feeding supporter 310 is disposed obliquely with respect to the horizontal plane, and both the front side and the rear side of the feeding supporter 310 are disposed parallel to the blocking surface 231. It should be noted here that, based on the arrangement that the blocking surface 231 is inclined relative to the horizontal plane, in combination with the arrangement of this embodiment, when the feeding driver 320 drives the feeding support member 310 to ascend so as to push upwards and support a longitudinal rib, the longitudinal rib gradually ascends along the blocking surface 231 under the supporting action of the feeding support member 310, so that one side surface of the longitudinal rib can be abutted and protected by the blocking surface 231, the risk that the longitudinal rib falls off from the feeding support member 310 can be reduced to a certain extent, and the feeding smoothness of the feeding assembly 300 is improved.

Referring to fig. 1-2 and 4, in the present embodiment, the feeding support member 310 includes a feeding support body 311, a first clamping structure 312 connected to an upper side of the feeding support body 311, and a second clamping structure 313 symmetrically disposed with respect to the first clamping structure 312, the first clamping structure 312 and the second clamping structure 313 are used together for clamping and supporting a longitudinal rib, the first clamping structure 312 has a first clamping surface 3121 for contacting the longitudinal rib, the second clamping structure 313 has a second clamping surface 3131 for contacting the longitudinal rib, and the first clamping surface 3121 and the second clamping surface 3131 intersect. It should be noted that in this embodiment, the feeding support body 311 supports the first clamping structure 312 and the second clamping structure 313, and the first clamping structure 312 and the second clamping structure 313 clamp and support the longitudinal rib thereon together, during the clamping and supporting process, the first clamping structure 312 will form a first stressed fulcrum at a contact point of the first stressed fulcrum and the longitudinal rib, and generate a first supporting force (or clamping force) perpendicular to the first clamping surface 3121 upward at the first stressed fulcrum, and the second clamping structure 313 will also form a second stressed fulcrum at a contact point of the second stressed fulcrum and the longitudinal rib, and generate a second supporting force (or clamping force) perpendicular to the second clamping surface 3131 upward at the second stressed fulcrum, so that a stable supporting effect can be formed on the longitudinal rib by the first clamping structure 312 and the second clamping structure 313.

Referring to fig. 1-2 and 4, in the present embodiment, an included angle formed between the first holding surface 3121 and the second holding surface 3131 is 90 ° to 120 °. It should be noted that, based on the configuration of the present embodiment, on one hand, a distance between a first force-bearing fulcrum formed between the first clamping structure 312 and the longitudinal rib and a second force-bearing fulcrum formed between the second clamping structure 313 and the longitudinal rib may be relatively elongated, so as to further ensure a supporting effect of the first clamping structure 312 and the second clamping structure 313 on the longitudinal rib; on the other hand, the angle value of the included angle formed between the first supporting force of the first clamping structure 312 to the longitudinal rib and the second supporting force of the second clamping structure 313 to the longitudinal rib is within the interval of 90 degrees to 120 degrees, so that the longitudinal rib is in a stress balance state.

Referring to fig. 1-3, in the present embodiment, the placement assembly 200 further includes at least one supporting structure 240 spaced apart from the sliding track structure 210, and the supporting structure 240 is used for supporting one end of each longitudinal rib when each longitudinal rib slides down along the sliding track structure 210. It should be noted here that, by arranging the abutting structure 240 on the side of the chute structure 210 away from the other chute structure 210, on one hand, one end of each longitudinal rib initially placed at the feed port 201 can be positioned by the abutting structure 240, so that the left and right sides of each longitudinal rib placed on the placing assembly 200 are stressed stably, thereby being beneficial to ensuring the linearity and the state stability of each longitudinal rib; on the other hand, the arrangement of the abutting structure 240 can also abut against one end of each longitudinal rib in the process that each longitudinal rib slides down along the slide rail structure 210, so as to maintain the parallel and level degree of each longitudinal rib, avoid the longitudinal rib from deviating towards one side, and further be beneficial to ensuring the neat and tiled placing state of each longitudinal rib.

Referring to fig. 1-3, in the present embodiment, there are two slide rail structures 210, two limiting structures 220, two blocking structures 230, and two longitudinal ribs, wherein the distance between the two slide rail structures 210 is equal to two thirds of the length of the longitudinal ribs, and the two blocking structures 230 are spaced from left to right and disposed between the two slide rail structures 210. It should be noted that, in the present embodiment, preferably, two slide rail structures 210 are disposed in one placement assembly 200, and two limiting structures 220 are correspondingly disposed, and two supporting pivots can be formed on the longitudinal bars based on the two slide rail structures 210, so as to keep sufficient longitudinal bar obtaining space for the operator and/or the manipulator while ensuring the supporting effect of the longitudinal bars; the distance between the two slideway structures 210 is equal to two thirds of the length of the longitudinal bar, and powerful and stable supports can be formed in the middle of the left half section and the right half section of the longitudinal bar through the two slideway structures 210, so that the straightness and the state stability of the longitudinal bar can be maintained.

It should be further noted that, by locating the two blocking structures 230 between the two sliding rail structures 210, the blocking structures 230 can be set close to the acquisition points where the operator and/or the manipulator acquire the longitudinal bars, so that the blocking effect of the blocking structures 230 on the longitudinal bars can be improved, and when the operator and/or the manipulator fails to acquire the longitudinal bars, the longitudinal bars can fall back accurately and smoothly based on the blocking effect of the blocking structures 230, that is, based on the above setting, the fault-tolerant effect of the longitudinal bar placing rack can be improved.

Referring to fig. 1-3, in the present embodiment, the number of the feeding assemblies 300 is equal to twice the number of the placing assemblies 200, and the feeding assemblies 300 are disposed between the sliding track structure 210 and the blocking structure 230. It should be noted that, two feeding assemblies 300 are correspondingly arranged in one placing assembly 200, and the two feeding assemblies 300 cooperate to push and support the longitudinal ribs in one placing assembly 200 one by one, so that, on one hand, the supporting force required by the feeding assemblies 300 to be applied to the longitudinal ribs can be reduced, thereby being beneficial to the miniaturization design of the feeding assemblies 300; on the other hand, the two feeding assemblies 300 cooperate to push and support the longitudinal ribs in one placing assembly 200 one by one, and the supporting force of the feeding assemblies 300 on the longitudinal ribs can be balanced, so that the longitudinal ribs are in a stable state in the pushing process. The feeding assemblies 300 are arranged between the slide rail structures 210 and the blocking structures 230, on one hand, the feeding assemblies 300 can be arranged close to the blocking structures 230 and the slide rail structures 210, so that stable and powerful ejection effects of the two feeding assemblies 300 on the longitudinal ribs can be formed, the convenience for obtaining the longitudinal ribs can be improved, on the other hand, the blocking structures 230 can be arranged close to the obtaining points of operators and/or manipulators for obtaining the longitudinal ribs relative to the feeding assemblies 300, and based on the content recorded in the embodiment, the fault-tolerant effect of the longitudinal rib placing frame can be improved.

The embodiment of the utility model provides a indulge muscle and put frame supports respectively through supporting component 100 and puts subassembly 200 and each pay-off subassembly 300 earlier, and then put subassembly 200 through the pendulum and make respectively indulge the muscle and present neat, tiling mode of putting, specifically speaking, through placing respectively indulge the muscle in the rear end department of slide structure 210, can make respectively indulge the muscle and follow the situation and descend and finally block it by blockking structure 230 along slide structure 210, and under the effect of restriction structure 220, respectively indulge the muscle and will present neatly arranged, tiling state of putting between restriction structure 220 and slide structure 210; finally, the feeding driver 320 drives the feeding support member 310 to ascend, so that the single longitudinal rib can be pushed and supported one by one, operators and/or mechanical hands can conveniently obtain the longitudinal rib one by one, and the situation that the longitudinal rib is taken too much can be avoided. This indulge muscle and put frame can avoid operating personnel and/or manipulator to get the condition emergence of indulging the muscle more when acquireing the muscle of indulging, and it has improved the acquisition convenience of indulging the muscle to the manufacturing efficiency of steel reinforcement cage has been improved to a certain extent.

The embodiment of the utility model provides a reinforcing cage manufacturing line is still provided for make the reinforcing cage, this reinforcing cage manufacturing line includes that the aforesaid is indulged the muscle and is put the frame. It should be noted that, the longitudinal bar placing frame is suitable for being applied to a steel reinforcement cage manufacturing production line, and is beneficial to an operator and/or a manipulator (particularly the manipulator) to obtain longitudinal bars one by one, so that the manufacturing efficiency of the steel reinforcement cage can be effectively improved, and the steel reinforcement cage manufacturing tends to be developed in an automatic direction.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. The utility model provides a indulge muscle and put frame for put and indulge the muscle, its characterized in that includes:

a support assembly;

the placing assembly is provided with at least one placing assembly, the placing assembly comprises at least two slide way structures arranged from left to right at intervals, at least two limiting structures which are respectively arranged with the slide way structures in an up-and-down alignment mode and are arranged at intervals, and at least two blocking structures which are arranged from left to right at intervals and are arranged on the front sides of the slide way structures, the front ends of the slide way structures are arranged in a downward inclination mode relative to the rear ends of the slide way structures, each longitudinal rib can slide to the front ends of the slide way structures from the rear ends of the slide way structures and is blocked by the blocking structures, and the limiting structures are used for limiting the stacked longitudinal ribs to pass through when the longitudinal ribs slide along the slide way structures;

the feeding assembly comprises a feeding supporting piece, a feeding driver used for driving the feeding supporting piece to lift and a feeding fixing piece used for fixing the feeding driver, wherein the feeding supporting piece can push one longitudinal rib blocked by the blocking structure under the driving of the feeding driver.

2. The longitudinal rib holding frame according to claim 1, wherein the blocking structure has a blocking surface for blocking the longitudinal rib, and the blocking surface is disposed obliquely to the horizontal plane.

3. The longitudinal rib holding frame according to claim 2, wherein the angle between the blocking surface and the horizontal plane is 45 °.

4. The longitudinal bar holding frame according to claim 2, wherein the feeding support member is disposed obliquely to the horizontal plane, and both the front side and the rear side of the feeding support member are disposed parallel to the blocking surface.

5. The longitudinal rib holding frame according to claim 1, wherein the feeding support member comprises a feeding support body, a first clamping structure connected to an upper side of the feeding support body, and a second clamping structure symmetrically arranged with respect to the first clamping structure, the first clamping structure and the second clamping structure are used together for clamping and supporting one longitudinal rib, the first clamping structure has a first clamping surface for contacting with the longitudinal rib, the second clamping structure has a second clamping surface for contacting with the longitudinal rib, and the first clamping surface and the second clamping surface are arranged in a crossing manner.

6. The longitudinal bar holding frame of claim 5, wherein the angle between the first holding surface and the second holding surface is 90 ° to 120 °.

7. The longitudinal bar holding frame of claim 1, wherein the holding assembly further comprises at least one holding structure spaced apart from the slide structure, and the holding structure is configured to hold one end of each longitudinal bar when the longitudinal bar slides down along the slide structure.

8. The longitudinal bar holding frame according to claim 1, wherein there are two of the slide rail structures, two of the limiting structures, two of the blocking structures, and a distance between the two slide rail structures is equal to two thirds of the length of the longitudinal bar, and the two blocking structures are spaced from left to right and disposed between the two slide rail structures.

9. The longitudinal bar holding frame of claim 7, wherein the number of the feeding assemblies is two times the number of the holding assemblies, and the feeding assemblies are arranged between the slide rail structure and the blocking structure.

10. A reinforcement cage manufacturing line for manufacturing reinforcement cages, comprising the longitudinal bar holding frame according to any one of claims 1 to 9.

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