CN210677441U - Horizontal muscle cloth mechanism of full-automatic reinforcing bar welded mesh piece welding machine of numerical control - Google Patents

Abstract

The utility model discloses a horizontal bar distributing mechanism of a numerical control full-automatic reinforcing steel bar welding mesh welding machine, which comprises a storage box, a horizontal bar conveyor belt and a horizontal bar blanking frame which are arranged towards the reinforcing steel bar mesh welding machine in sequence; the upper side of the feed opening of the material storage box is provided with a baffle plate, and the gap between the upper surface of the transverse rib conveyor belt and the lower side of the feed opening is smaller than the diameter of the transverse rib; the transverse rib conveying belt is provided with a first magnetic strip, and the bottom edge of the baffle is provided with a second magnetic strip with the polarity opposite to that of the first magnetic strip. The distance between the base of baffle and the lower side of feed opening is less than the diameter of horizontal muscle, and horizontal muscle is deviate from the feed opening before avoiding the first magnetic stripe on the horizontal muscle conveyer belt to convey the feed opening, and the first magnetic stripe that evenly sets up through a plurality of that sets up on horizontal muscle conveyer belt carries out the conveying of adsorbing one to horizontal muscle, avoids a plurality of horizontal muscle to fall down in the feed opening simultaneously, has realized the unloading in succession, and only horizontal muscle of unloading at every turn.

Description

Horizontal muscle cloth mechanism of full-automatic reinforcing bar welded mesh piece welding machine of numerical control

Technical Field

The utility model relates to a reinforcing bar net piece welding machine technical field, concretely relates to horizontal muscle cloth mechanism of full-automatic reinforcing bar welded net piece welding machine of numerical control.

Background

In the construction industry, steel mesh sheets have been widely used in various construction processes. The reinforcing mesh is formed by arranging a plurality of longitudinal bars and a plurality of transverse bars at certain intervals and forming right angles with each other, and all cross points are welded together by welding. At present, the condition that a plurality of transverse ribs exist simultaneously in a transverse rib distributing mechanism of a steel bar welding mesh welding machine, the welding machine needs to be closed for taking out redundant transverse ribs, welding cannot be continuously carried out, the crossed positioning of steel bars is not accurate, and the quality of the steel bar mesh is seriously influenced under the condition that welding spots are not uniform.

Disclosure of Invention

An object of the utility model is to overcome the defect that exists among the prior art, provide a simple structure, can the unloading in succession, and the horizontal muscle cloth mechanism of the full-automatic rebar welding net piece welding machine of a horizontal muscle of only unloading at every turn.

In order to achieve the purpose, the technical scheme of the utility model is to design a transverse bar distributing mechanism of a numerical control full-automatic reinforcing bar welding mesh welding machine, which is arranged at one side of the reinforcing bar mesh welding machine and comprises a storage box, a transverse bar conveyor belt and a transverse bar blanking frame which are arranged towards the reinforcing bar mesh welding machine in sequence; the lower bottom surface of the interior of the material storage box is a slope surface, a feed opening is arranged at the bottom end of the slope surface, a baffle is hinged to the upper side edge of the feed opening, and the distance between the bottom edge of the baffle and the lower side edge of the feed opening is smaller than the diameter of the transverse rib; the transverse rib conveyor belt is obliquely arranged downwards, a gap between the upper surface of the transverse rib conveyor belt and the lower side edge of the feed opening is smaller than the diameter of a transverse rib, and the width of the transverse rib conveyor belt is smaller than the length of the transverse rib; evenly set up the first magnetic stripe of a plurality of on the horizontal muscle conveyer belt, the length direction of first magnetic stripe with the length direction of feed opening is parallel, the base of baffle be equipped with the opposite second magnetic stripe of polarity of first magnetic stripe. The lower bottom surface of the storage box is a slope surface, the transverse rib rolls downwards along the slope surface to the position of the feed opening and is blocked by the baffle, so that the transverse rib cannot directly fall from the feed opening, when a first magnetic stripe on the transverse rib conveyor belt rotates to the position below the feed opening, the first magnetic stripe adsorbs one transverse rib in the storage box, and meanwhile, the repulsive force between the first magnetic stripe and a second magnetic stripe pushes the baffle to turn outwards and open, so that the transverse rib in the storage box can be separated from the storage box and obliquely moves downwards along with the conveying of the transverse rib conveyor belt; when the transverse ribs on the transverse rib transmission belt move to the position of the transverse rib blanking frame, the parts of the transverse ribs protruding out of the two ends of the transverse rib transmission belt are put on the blanking frame, and the transverse ribs are separated from the first magnetic stripes on the transverse rib transmission belt along with the rotation of the transverse rib transmission belt and the supporting force of the blanking frame; the distance between the base of baffle and the lower side of feed opening is less than the diameter of horizontal muscle, and horizontal muscle is deviate from the feed opening before avoiding the first magnetic stripe on the horizontal muscle conveyer belt to convey the feed opening, and the first magnetic stripe that evenly sets up through a plurality of that sets up on horizontal muscle conveyer belt carries out the conveying of adsorbing of one to horizontal muscle, avoids a plurality of horizontal muscle to fall down in the feed opening simultaneously to realized can continuous unloading, and the function of a horizontal muscle of unloading at every turn.

The preferred technical scheme does, horizontal muscle blanking frame is the horizontal muscle blanking frame of two Y shapes, Y shape horizontal muscle blanking frame is connected by first pole, second pole and vertical pole and forms, two horizontal muscle blanking frame is located the both sides of the bottom of horizontal muscle conveyer belt, the distance between the tip that horizontal muscle blanking frame is close to the first pole of horizontal muscle conveyer belt and the surface of horizontal muscle conveyer belt is less than the diameter of horizontal muscle. The distance between the end part of the first rod and the surface of the transverse rib conveyor belt is smaller than the diameter of the transverse rib, so that the transverse rib can be prevented from rotating from a gap between the first rod and the surface of the conveyor belt to exceed the position of the Y-shaped transverse rib blanking frame; the space that forms between the first pole of the horizontal muscle blanking frame of Y shape and the second pole can be better lifts horizontal muscle, makes horizontal muscle not take place to roll in the blanking frame.

In order to improve the separation speed of the blanking frame on the transverse ribs on the transverse rib conveying belt and avoid the transverse ribs from being clamped in the gap between the first rod and the upper surface of the transverse rib conveying belt, the further preferred technical scheme is that the central symmetry line of the vertical rod is coplanar with the upper surface of the transverse rib conveying belt.

According to a further preferred technical scheme, a vertical rod of the transverse bar blanking frame is connected with a support in an overturning manner, and the overturning direction faces the reinforcing mesh welding machine. The transverse rib blanking frame is overturned towards the welding machine, transverse ribs are thrown to the welding head position of the welding machine, a transverse rib transmission device between the blanking frame and the welding head of the welding machine is reduced, and equipment of a whole reinforcing mesh production line is simplified.

A further preferred technical scheme is that the joints of the first rod, the second rod and the vertical rod of the two transverse bar blanking frames are connected through a rotating shaft, and a motor is arranged at one end of the rotating shaft. The junction of horizontal muscle blanking frame is connected through the pivot, and the motor drives the pivot and makes blanking frame rotate, and horizontal muscle is stably fallen on horizontal muscle transmission between horizontal muscle blanking frame and the welding machine, makes horizontal muscle towards the advancing speed and the distance of welding machine stable, can be more accurate fix a position horizontal muscle.

In order to improve the thrust of the first magnetic stripe to the second magnetic stripe, a further preferable technical scheme is that the length of the baffle is smaller than that of the discharge port, and the length of the first magnetic stripe is larger than that of the second magnetic stripe. The length of first magnetic stripe is greater than the length of second magnetic stripe, has increased the repulsion force mutually between first magnetic stripe and the second magnetic stripe, and simultaneously, the length of baffle is less, makes the baffle can turn up fast under the effect of repulsion force mutually to make the horizontal muscle that inhales mutually with first magnetic stripe move down under the drive of horizontal muscle conveyer belt.

In order to facilitate adjustment of the cloth interval of the transverse ribs, the welding cloth of the steel mesh pieces with different transverse rib distances is adapted, and the further preferred technical scheme is that the first magnetic stripe is detachably connected with the transverse rib conveying belt.

The utility model has the advantages and the beneficial effects that: the transverse rib distributing mechanism has the characteristics of simple structure, capability of continuously discharging and capability of discharging one transverse rib at a time. The distance between the bottom edge of the baffle and the lower side edge of the feed opening is smaller than the diameter of the transverse rib, so that the transverse rib is prevented from being separated from the feed opening before the first magnetic strips on the transverse rib conveyor belt are conveyed to the feed opening, the transverse ribs are subjected to one-to-one adsorption conveying through a plurality of uniformly arranged first magnetic strips arranged on the transverse rib conveyor belt, and a plurality of transverse ribs are prevented from falling from the feed opening simultaneously, so that the functions of continuous feeding and feeding of only one transverse rib at each time are realized; the distance between the end part of the first rod and the surface of the transverse rib conveyor belt is smaller than the diameter of the transverse rib, so that the transverse rib can be prevented from rotating from a gap between the first rod and the surface of the conveyor belt to exceed the position of the Y-shaped transverse rib blanking frame; the space formed between the first rod and the second rod of the Y-shaped transverse rib blanking frame can better lift the transverse ribs, so that the transverse ribs do not roll in the blanking frame; the transverse bar blanking frame is turned towards the welding machine, transverse bars are thrown to the welding joint position of the welding machine, a transverse bar transmission device between the blanking frame and the welding joint of the welding machine is reduced, and equipment of the whole reinforcing mesh production line is simplified; the connecting parts of the transverse rib blanking frames are connected through a rotating shaft, the motor drives the rotating shaft to enable the blanking frames to rotate, and the transverse ribs stably fall on a transverse rib transmission device between the transverse rib blanking frames and a welding machine, so that the advancing speed and distance of the transverse ribs towards the welding machine are stable, and the transverse ribs can be positioned more accurately; the length of first magnetic stripe is greater than the length of second magnetic stripe, has increased the repulsion force mutually between first magnetic stripe and the second magnetic stripe, and simultaneously, the length of baffle is less, makes the baffle can turn up fast under the effect of repulsion force mutually to make the horizontal muscle that inhales mutually with first magnetic stripe move down under the drive of horizontal muscle conveyer belt.

Drawings

FIG. 1 is a schematic structural view of a transverse rib distributing mechanism of the present invention;

fig. 2 is a schematic view of the structure in the direction a of fig. 1.

In the figure: 1. a reinforcing mesh welding machine; 2. a material storage box; 3. a transverse rib conveyor belt; 4. a transverse bar blanking frame; 5. a baffle plate; 6. a first magnetic stripe; 7. a second magnetic stripe; 8. a rotating shaft; 9. a motor; 10. horizontal muscle transmission.

Detailed Description

The following description will further describe embodiments of the present invention with reference to the accompanying drawings and examples. The following examples are only for illustrating the technical solutions of the present invention more clearly, and the protection scope of the present invention is not limited thereby.

Example 1

As shown in fig. 1 and 2, the utility model relates to a transverse bar distributing mechanism of a numerical control full-automatic reinforcing bar welding mesh welding machine, which is arranged at one side of the reinforcing bar mesh welding machine and comprises a storage box 2, a transverse bar conveyor belt 3 and a transverse bar blanking frame 4 which are arranged towards the reinforcing bar mesh welding machine 1 in sequence; the lower bottom surface of the interior of the material storage box is a slope surface, a feed opening is arranged at the bottom end of the slope surface, a baffle plate 5 is hinged to the upper side edge of the feed opening, and the distance between the bottom edge of the baffle plate and the lower side edge of the feed opening is smaller than the diameter of the transverse rib; the transverse rib conveyor belt is obliquely arranged downwards, a gap between the upper surface of the transverse rib conveyor belt and the lower side edge of the feed opening is smaller than the diameter of a transverse rib, and the width of the transverse rib conveyor belt is smaller than the length of the transverse rib; the horizontal muscle conveyer belt evenly sets up first magnetic stripe 6 according to the rotational speed of conveyer belt and the interval between the horizontal muscle of reinforcing bar net piece, the length direction of first magnetic stripe with the length direction of feed opening is parallel, the base of baffle be equipped with the opposite second magnetic stripe 7 of polarity of first magnetic stripe.

The horizontal muscle blanking frame is the horizontal muscle blanking frame of two Y shapes, and the Y shape horizontal muscle blanking frame is connected by first pole, second pole and vertical pole and is constituteed, two horizontal muscle blanking frame is located the both sides of the bottom of horizontal muscle conveyer belt, the distance between the tip that horizontal muscle blanking frame is close to the first pole of horizontal muscle conveyer belt and the surface of horizontal muscle conveyer belt is less than the diameter of horizontal muscle.

The first rod, the second rod and the vertical rod of two horizontal bar blanking frame are connected through a rotating shaft 8, and a motor 9 is arranged at one end of the rotating shaft. The motor drives the rotating shaft to rotate the blanking frame, and the transverse rib stably falls on a transverse rib transmission device 10 between the transverse rib blanking frame and the welding machine; and the vertical rod of the transverse bar blanking frame is connected with the bracket in an overturning way, and the overturning direction faces the reinforcing mesh welding machine.

The length of baffle is less than the length of discharge gate, the length of first magnetic stripe is greater than the length of second magnetic stripe.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the technical principle of the present invention, and these improvements and decorations should also be regarded as the protection scope of the present invention.

Claims (7)

1. A transverse bar distributing mechanism of a numerical control full-automatic reinforcing bar welding mesh welding machine is arranged on one side of the welding machine and is characterized by comprising a storage box, a transverse bar conveying belt and a transverse bar blanking frame which are sequentially arranged towards the reinforcing bar welding machine; the lower bottom surface of the interior of the material storage box is a slope surface, a feed opening is arranged at the bottom end of the slope surface, a baffle is hinged to the upper side edge of the feed opening, and the distance between the bottom edge of the baffle and the lower side edge of the feed opening is smaller than the diameter of the transverse rib; the transverse rib conveyor belt is obliquely arranged downwards, a gap between the upper surface of the transverse rib conveyor belt and the lower side edge of the feed opening is smaller than the diameter of a transverse rib, and the width of the transverse rib conveyor belt is smaller than the length of the transverse rib; evenly set up the first magnetic stripe of a plurality of on the horizontal muscle conveyer belt, the length direction of first magnetic stripe with the length direction of feed opening is parallel, the base of baffle be equipped with the opposite second magnetic stripe of polarity of first magnetic stripe.

2. The horizontal rib distributing mechanism of the numerical control full-automatic steel bar welding mesh sheet welding machine according to claim 1, characterized in that the horizontal rib blanking frame is two Y-shaped horizontal rib blanking frames, each Y-shaped horizontal rib blanking frame is formed by connecting a first rod, a second rod and a vertical rod, the two horizontal rib blanking frames are positioned on two sides of the bottom end of a horizontal rib conveying belt, and the distance between the end part of the horizontal rib blanking frame, which is close to the first rod of the horizontal rib conveying belt, and the surface of the horizontal rib conveying belt is smaller than the diameter of the horizontal rib.

3. The transverse rib distributing mechanism of the numerical control full-automatic steel rib welding mesh sheet welding machine according to claim 2, wherein a central symmetry line of the vertical rod is coplanar with the upper surface of the transverse rib transmission belt.

4. The transverse bar distributing mechanism of the numerical control full-automatic steel bar welding mesh welding machine according to claim 3, characterized in that a vertical rod of the transverse bar blanking frame is connected with a support in an overturning way, and the overturning direction faces the steel bar mesh welding machine.

5. The transverse rib distributing mechanism of the numerical control full-automatic steel rib welding mesh welding machine according to claim 3 is characterized in that joints of a first rod, a second rod and a vertical rod of two transverse rib blanking frames are connected through a rotating shaft, and a motor is arranged at one end of the rotating shaft.

6. The transverse bar distributing mechanism of the numerical control full-automatic steel bar welding mesh welding machine according to any one of claims 1 to 5, wherein the length of the baffle is smaller than that of the feed opening, and the length of the first magnetic strip is larger than that of the second magnetic strip.

7. The transverse rib distributing mechanism of the numerical control full-automatic steel rib welding mesh welding machine according to claim 6, wherein the first magnetic stripe is detachably connected with the transverse rib conveying belt.

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