CN106742176B - Steel belt packing machine capable of shearing steel belts in staggered mode and steel belt packing method - Google Patents

Abstract

The invention discloses a steel belt packing machine capable of shearing steel belts in a staggered manner and a steel belt packing method, wherein the steel belt packing machine comprises a first cutter holder and a second cutter holder, the first cutter holder can move along the axial direction, the first cutter holder is provided with a first cutter die and a shearing blade, and the second cutter holder is provided with a second cutter die which can be matched with the first cutter die; the steel belt can penetrate through the guiding belt component and wind the goods to be bound, and a gap for winding the steel belt of the goods to be bound to pass through is formed between the guiding belt component and the second cutter seat. The steel belt packer capable of shearing steel belts in a staggered way can shear the steel belts only by small stamping force.

Description

Steel belt packing machine capable of shearing steel belts in staggered mode and steel belt packing method

Technical Field

The invention relates to the technical field of steel belt packing, in particular to a steel belt packing machine capable of shearing steel belts in a staggered manner and a steel belt packing method.

Background

The steel belt packing machine is one kind of packing machine for packing various kinds of pipe, section, ingot, plate, etc. in nonferrous metal and iron and steel enterprises.

Referring to fig. 1, fig. 1 is a schematic structural diagram of a steel strip baler according to an embodiment of the prior art.

As shown in fig. 1, the conventional steel strip packing machine generally includes an oil cylinder 01, an upper tool apron 02 and a lower tool apron 03, wherein the upper tool apron 02 is connected with the oil cylinder 01 and can move up and down under the driving of the oil cylinder 01, an upper tool die 021 and a punching blade 022 are arranged at the lower part of the upper tool apron 02, and a lower tool die 031 is arranged at the upper part of the lower tool apron 03.

When the strapping machine is used, the steel belt 04 can be used for bypassing the product to be strapped, two extending ends of the steel belt 04 extend into the space between the upper cutter holder 02 and the lower cutter holder 03, the oil cylinder 01 is further controlled to drive the upper cutter holder 02 to move downwards, the steel belt can be buckled under the action of the upper cutter mold 021 and the lower cutter mold 031, and the punching blade 022 can be used for punching off the redundant steel belt 04 at the same time so as to finish strapping the product.

However, the above-mentioned punching process of the steel strip 04 is simply performed by the punching force of the punching blade 022, and the whole process requires a large punching force, and the lower blade holder 03 needs to have a sufficient thickness to withstand the large punching force, which is disadvantageous for tightening the steel strip 04. Meanwhile, because frequent work is required, the loss of the punching blade 022 is also aggravated by the larger punching force, and the service life of the punching blade is not prolonged.

Therefore, how to provide a steel strip baler with smaller punching force is still a technical problem to be solved by those skilled in the art.

Disclosure of Invention

The invention aims to provide a steel belt packing machine capable of shearing steel belts in a staggered manner and a steel belt packing method.

In order to solve the technical problems, the invention provides a steel belt packer capable of shearing steel belts in a staggered manner, which comprises a first cutter holder and a second cutter holder, wherein the first cutter holder can move along the axial direction, the first cutter holder is provided with a first cutter die and a shearing blade, and the second cutter holder is provided with a second cutter die which can be matched with the first cutter die; the steel belt can penetrate through the guiding belt component and wind the goods to be bound, and a gap for winding the steel belt of the goods to be bound to pass through is formed between the guiding belt component and the second cutter seat.

Compared with the prior art, the steel belt packer provided by the invention is additionally provided with the guide belt component, and when the steel belt packer is used, the steel belt can firstly pass through the guide belt component, then is wound on the periphery of a load to be bundled, and finally is wound back to a gap between the guide belt component and the second tool apron. Thus, there will be two layers of steel strip between the first and second dies, including a first layer of steel strip located in the lead section and a second layer of steel strip located between the lead section and the second blade seat.

When the first cutter seat is driven to move towards the second cutter seat to cut off the first layer of steel belt, the first layer of steel belt cannot directly move towards the second layer of steel belt due to the support of the guiding belt component, the shearing blade generates a punching force towards the second cutter seat on the first layer of steel belt, and the guiding belt component can generate a supporting force deviating from the second cutter seat on the first layer of steel belt. And because the guiding belt component is arranged close to the shearing blade, the stamping force and the supporting force can act on the same position of the first layer of steel belt at the same time so as to shear the first layer of steel belt in a staggered way, so that the stamping force required for shearing the first layer of steel belt is greatly reduced, and the service life of the shearing blade can be greatly prolonged.

Optionally, the guiding part is movable in an axial direction and is capable of pressing the steel strip wound around the gap against the second tool holder.

Optionally, the guiding component comprises a guiding plate, and the guiding plate is provided with a guiding hole through which the steel belt can pass.

Optionally, the device further comprises a first oil cylinder, wherein the first oil cylinder is connected with the tape guiding plate so as to drive the tape guiding plate to move along the axial direction.

Optionally, the device further comprises a second oil cylinder, wherein the second oil cylinder is connected with the first tool apron so as to drive the first tool apron to move along the axial direction.

Optionally, one end of the guiding plate, which is far away from the second tool apron, is provided with a connecting part which is bent outwards and extends, and the first oil cylinder is connected with the connecting part.

Optionally, the device further comprises a mounting plate, wherein the mounting plate is located above the first tool apron and the guide belt component, and the first oil cylinder and the second oil cylinder are both arranged on the mounting plate.

Optionally, a sliding stop piece is arranged at a position of the second tool holder opposite to the guiding belt component.

The invention also provides a steel belt packing method of the staggered shearing steel belt, which is used for the steel belt packing machine of the staggered shearing steel belt and comprises the following steps: step S1, the steel belt passes through the guiding belt component and is wound on the periphery of the goods to be bundled, and then is wound back to a gap between the guiding belt component and the second tool apron; step S2, driving the first cutter holder to move towards the second cutter holder, wherein the first cutter die can be matched with the second cutter die so as to buckle two layers of steel belts between the first cutter die and the second cutter die, and the shearing blade can be matched with the guiding belt component so as to shear the steel belts penetrating through the guiding belt component in a staggered manner.

Optionally, between the step S1 and the step S2, there may be further included: step S11, driving the guiding part to move towards the second tool holder so as to press the steel belt wound around the gap to the second tool holder; and step S12, tightening the steel belt penetrating through the guiding belt component so as to tighten the goods to be bundled.

Drawings

FIG. 1 is a schematic view of a prior art steel strapping machine embodiment;

FIG. 2 is a schematic view of one embodiment of a steel strapping machine capable of alternately shearing steel strips in accordance with the present invention;

FIG. 3 is a schematic diagram of a steel strip packer capable of shearing steel strips alternately according to the present invention before shearing the steel strips;

FIG. 4 is a schematic diagram of the structure of the steel strip packer capable of alternately shearing steel strips in the steel strip shearing process according to the present invention;

fig. 5 is a structural view of the steel belt packer capable of shearing steel belts alternately according to the present invention after steel belts are sheared.

The reference numerals in fig. 1 are explained as follows:

01 cylinder, 02 upper knife holder, 021 upper knife mould, 022 knife blade, 03 lower knife holder, 031 lower knife mould, 04 steel belt.

The reference numerals of fig. 2-5 are illustrated as follows:

1 a first tool apron, 11 a first cutting die and 12 cutting edges;

2, a second tool apron and 21 a second cutting die;

3 steel belts, 31 first steel belts and 32 second steel belts;

4, connecting the lead plate, the lead hole 41 and the connecting part 42;

5 a first oil cylinder, 6 a second oil cylinder, 7 a mounting plate and 8 a non-slip sheet.

Detailed Description

In order to make the technical solution of the present invention better understood by those skilled in the art, the present invention will be further described in detail with reference to the accompanying drawings and specific embodiments.

The terms "first," "second," and the like herein are merely used for convenience in describing two or more components or structures that are identical or similar in structure and do not denote a particular limitation of order.

Referring to fig. 2, fig. 2 is a schematic structural diagram of a steel strip packer capable of shearing steel strips alternately according to an embodiment of the present invention.

As shown in fig. 2, the present invention provides a steel strip packer capable of shearing steel strips in a staggered manner, comprising a first cutter holder 1, a second cutter holder 2 and a guiding part, wherein the first cutter holder 1 can move along the axial direction, the first cutter holder 1 is provided with a first cutter die 11 and a shearing blade 12, and the second cutter holder 2 is provided with a second cutter die 21 which can be matched with the first cutter die 11. The guiding belt part is arranged against the shearing edge 12, the steel belt 3 can pass through the guiding belt part and wind the goods to be bound, and a gap for the steel belt 3 wound around the goods to be bound to pass back is arranged between the guiding belt part and the second cutter holder 2. The above-mentioned "axial" movement means a movement of the first tool holder 1 toward or away from the second tool holder 2, and is reflected in fig. 2 as "up-down" movement of the first tool holder 1.

Compared with the prior art, the steel belt packer provided by the invention is additionally provided with the guiding belt component, and when the steel belt packer is used, the steel belt 3 can firstly pass through the guiding belt component, then is wound on the periphery of the goods to be bundled, and finally is wound back to the gap between the guiding belt component and the second cutter seat 2. Thus, there will be two layers of steel strip 3 between the first and second dies 11, 21, including a first layer 31 of steel strip located in the guide section and a second layer 32 of steel strip located between the guide section and the second tool holder 2.

Referring to fig. 3-5, fig. 3 is a structural diagram of a steel band packer capable of shearing steel bands alternately before shearing the steel bands, fig. 4 is a structural diagram of a steel band packer capable of shearing steel bands alternately after shearing the steel bands, and fig. 5 is a structural diagram of a steel band packer capable of shearing steel bands alternately after shearing the steel bands.

As shown in fig. 3 to 5, when the first blade holder 1 is driven to move toward the second blade holder 2 to shear the first layer of steel strip 31, the first layer of steel strip 31 cannot move directly toward the second layer of steel strip 32 due to the support of the guiding member, the shearing blade 12 can generate a pressing force toward the second blade holder 2 on the first layer of steel strip 31, and the guiding member can generate a supporting force against the first layer of steel strip 31 away from the second blade holder 2. Because the guiding component is arranged close to the shearing blade 12, the stamping force and the supporting force can be simultaneously applied to the same position of the first layer of steel belt 31 to alternately shear the first layer of steel belt 31, so that the stamping force required for shearing the first layer of steel belt 31 is greatly reduced, and the service life of the shearing blade 12 can be greatly prolonged.

On the other hand, since the stamping force required for shearing the first layer of steel strip 31 is greatly reduced, the force for driving the first tool holder 1 to move towards the second tool holder 2 can be greatly reduced, that is, the stamping force borne by the second tool holder 2 is greatly reduced, so that the use requirement can be met by using the second tool holder 2 with a thinner thickness, thereby saving the manufacturing cost of the second tool holder 2 and further saving the manufacturing cost of the steel strip packer.

It should be appreciated that, when the steel belt packer is specifically used, the load to be bundled is generally disposed below the second tool holder 2, and the steel belt 3 passes through the gap between the first tool holder 1 and the second tool holder 2 and winds around the periphery of the load to be bundled, and then winds back between the first tool holder 1 and the second tool holder 2, which is equivalent to the load to be bundled being suspended below the second tool holder 2. Thus, the greater the thickness of the second holder 2, the more difficult it is to tighten the steel strip 3. The steel belt packer capable of alternately shearing the steel belts provided by the invention has the advantages that the thickness of the second cutter holder 2 is thinner, so that the packing to be bound is facilitated.

In addition, in the prior art, more burrs exist on the section of the steel strip formed by simply punching the first layer of steel strip 31 by means of punching force, and the burrs may cause damage to the transported goods and handling personnel during transportation of the bundled goods. The steel belt packer provided by the invention shears the first layer of steel belt 31 in a staggered shearing mode, so that the section of the steel belt formed by the method is smoother, and the safety of personnel and goods in the transportation process is ensured more favorably.

Further, the above-mentioned guide belt member is also movable in the axial direction, and can press the steel belt 3 wound around between the guide belt member and the second blade holder 2 against the second blade holder 2. The above-mentioned "axial" movement refers to a movement of the belt member towards or away from the second seat 2, which is reflected in fig. 2 as "up-and-down" movement of the belt member.

With the above arrangement, before the first layer of steel strip 31 is sheared, the guiding strip part can be driven to move towards the second tool holder 2 first, so as to press the second layer of steel strip 32 against the second tool holder 2, and further the first layer of steel strip 31 can be pulled, and the process of pulling the first layer of steel strip 31 can gradually tighten the steel strip 3 wound on the goods to be bundled, so as to more effectively fasten the goods to be bundled, because the second layer of steel strip 32 is pressed at this time.

Specifically, the above-described tape member may include a tape plate 4, and the tape plate 4 may be provided with a tape hole 41. As also shown in fig. 3-5, in use, the steel strap 3 may first be threaded through the strap opening 41 and then wrapped around the periphery of the load to be strapped; when the first tool holder 1 is driven to move toward the second tool holder 2 to shear the first layer of steel strip 31, the bottom of the guiding hole 41 can support the first layer of steel strip 31, and then cooperate with the shearing blade 12 to shear the first layer of steel strip 31 in a staggered manner. When the guiding plate 4 moves downward along the axial direction, the end of the guiding plate 4 close to the second tool holder 2 can compress the second layer of steel strip 32 on the second tool holder 2, so as to facilitate drawing the first layer of steel strip 31 and further tighten the goods to be bundled.

In fact, the above-mentioned arrangement of the guiding holes 41 can also provide a guiding function for the travel of the steel strip 3 through the first and second holders 1, 2 to wind the goods to be bundled. As shown in fig. 2, the opening direction of the guiding hole 41 is opposite to the gap between the two tool holders, and the steel strip 3 passing through the guiding hole 41 can accurately pass through the gap between the first tool holder 1 and the second tool holder 2, so as to form a winding for the goods to be bundled.

The above-mentioned guide strip part may also be provided in other forms, for example, it may comprise only one layer of shim plate which is arranged above the second seat 2 and which is in a clearance with the second seat 2. In use, the strip 3 may pass over the shim plate, through the gap between the two holders, and finally around between the shim plate and the second holder 2, so that the cutting edge 12 may also cooperate with the shim plate to stagger the cutting of the first layer of strip 31 when the first holder 1 is driven towards the second holder 2. Meanwhile, the backing plate can also move up and down along the axial direction so as to press the second layer of steel belt 32 to the second tool apron 2, so that the goods to be bound can be more effectively bound.

Based on the setting of the backing plate, the guiding component may further include a pressing plate located above the backing plate, a gap is formed between the pressing plate and the backing plate, through which the steel strip 3 can pass, and when the backing plate presses the second layer of steel strip 32 and pulls the first layer of steel strip 31 to tighten the goods to be bundled, the pressing plate can also move downwards along the axial direction to press the first layer of steel strip 31 on the backing plate. Therefore, when the first tool holder 1 is driven to move towards the second tool holder 2 to shear the first layer of steel strip 31, the first layer of steel strip 31 does not need to be provided with continuous tension to ensure the fastening effect of the goods to be bundled, and the first layer of steel strip 31 is more convenient to shear.

It should be noted that the above description of two specific structural designs of the guiding component is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention for providing a steel strip baler capable of alternately shearing steel strips. On the premise of meeting the use function of the steel belt packing machine, the guiding belt component can be arranged in other forms, and when the steel belt packing machine is in specific implementation, a person skilled in the art can set the specific structure of the guiding belt component according to actual conditions.

With continued reference to fig. 2, the steel strip baler may further include a first cylinder 5 and a second cylinder 6, where the first cylinder 5 is connected to the guiding component to drive the guiding component to move axially, and the second cylinder 6 is connected to the first tool holder 1 to drive the first tool holder 1 to move axially. The first tool apron 1 and the guiding belt component can also adopt a motor driving or manual driving mode, and when the tool apron is specifically used, a specific driving mode can be selected by a person skilled in the art according to the actual conditions such as equipment scale, use environment and the like.

The end of the leading strap 4 far away from the second tool apron 2 can be provided with a connecting part 42 which is bent outwards and extends, and then the first oil cylinder 5 can be connected with the connecting part 42, so that the two oil cylinders can be separated by a certain distance during installation, the mutual interference of the installation positions of the two oil cylinders in the installation process can be avoided, and meanwhile, the work of each oil cylinder is not influenced. The above-described "outward" bending and extending is bending and extending in a direction away from the installation position of the second cylinder 6.

The steel belt packing machine can further comprise a mounting plate 7, wherein the mounting plate is located above the first cutter holder and the guiding belt component, and the first oil cylinder 5 and the second oil cylinder 6 can be further arranged on the mounting plate 7 so as to be convenient for mounting and fixing the two oil cylinders.

For each of the above solutions, the specific structure of the second tool holder 2 may be further improved, where the second tool holder 2 and the guiding component are opposite to each other, and the sliding stop piece 8 may be disposed at a position where the guiding component is driven to press the second layer of steel strip 32 against the surface of the sliding stop piece 8, and because the surface of the sliding stop piece 8 is rough, the friction force at the contact position between the sliding stop piece and the second layer of steel strip 32 may be increased, so when the first layer of steel strip 31 is pulled, the second layer of steel strip 32 may be more stably disposed between the guiding component and the second tool holder 2 without moving, which is more convenient for fastening the goods to be bundled. The anti-slip sheet 8 may be a rough-surface metal sheet, and the metal sheet may be welded to the second holder 2.

The invention also provides different steel belt packing methods aiming at the steel belt packing machines capable of shearing steel belts in different modes in a staggered way.

For the above-mentioned scheme that the leading part cannot move along the axial direction, when the steel strip is packed, the following steps can be referred to:

step S1, a steel belt 3 passes through the guiding belt component and is wound on the periphery of the goods to be bundled, and then is wound around a gap between the guiding belt component and the second tool apron 2;

step S2, the first tool holder 1 is driven to move towards the second tool holder 2, the first cutting die 11 can be matched with the second cutting die 21 to buckle the two layers of steel strips 3 therebetween, and the cutting edge 12 can be matched with the guiding strip component to cut the steel strips 3 penetrating through the guiding strip component in a staggered manner.

In the solution that the guiding part can move axially, the following steps can be added between the steps S1 and S2 when the steel strip is packed:

step S11, driving the guiding component to move towards the second cutter holder 2 so as to press the steel belt 3 wound between the guiding component and the second cutter holder 2 to the second cutter holder 2;

step S12, tightening the steel belt 3 penetrating the guiding belt part to tighten the goods to be bound.

For the scheme that the guiding belt component comprises the pressing plate and the backing plate, when the steel belt is packed, the following steps can be referred to:

step S1, a steel belt 3 passes through the upper part of the backing plate and is wound on the periphery of the goods to be bundled, and then is wound around a gap between the backing plate and the second tool apron 2;

step S2, driving the backing plate to move towards the second tool holder 2 so as to compress the steel strip 3 wound between the backing plate and the second tool holder 2 to the second tool holder 2;

step S3, tightening the steel belt 3 above the backing plate to tighten the goods to be bound;

step S4, the pressing plate is driven to move towards the backing plate so as to press the steel strip 3 between the pressing plate and the backing plate on the backing plate, the first cutter holder 1 is driven to move towards the second cutter holder 2, the first cutter die 11 can be matched with the second cutter die 21 so as to buckle two layers of steel strips 3 between the pressing plate and the backing plate, and the shearing blade 12 can be matched with the backing plate so as to shear the steel strips 3 between the pressing plate and the backing plate in a staggered manner.

In a word, the steel belt packing method of the steel belt packer provided by the invention is suitable for the specific structure of the guiding belt component, and when the steel belt packing method is implemented, different methods can be adopted to pack the goods to be bundled according to the specific structure of specific equipment, so that the steel belts 3 are sheared in a staggered way.

The foregoing is merely a preferred embodiment of the present invention and it should be noted that modifications and adaptations to those skilled in the art may be made without departing from the principles of the present invention, which are intended to be comprehended within the scope of the present invention.

Claims (5)

1. The steel belt packing machine capable of shearing steel belts in a staggered manner comprises a first cutter holder (1) and a second cutter holder (2), wherein the first cutter holder (1) can move along the axial direction, the first cutter holder (1) is provided with a first cutter die (11) and a shearing blade (12), the second cutter holder (2) is provided with a second cutter die (21) which can be matched with the first cutter die (11),

the device also comprises a guiding belt component, wherein the guiding belt component is arranged close to the shearing blade (12), the steel belt (3) can pass through the guiding belt component and wind the goods to be bound, and a gap for the steel belt (3) wound around the goods to be bound to pass back is formed between the guiding belt component and the second tool apron (2);

the guiding belt component comprises a base plate and a pressing plate, the base plate is arranged above the second tool apron (2) and has the gap with the second tool apron (2), the pressing plate is arranged above the base plate, the pressing plate and the base plate can both move in the up-down direction, and the steel belt (3) can pass through the space between the base plate and the pressing plate;

the clamp plate can be located the clamp plate with steel band (3) between the backing plate compresses tightly, the backing plate can be located the backing plate with steel band (3) between second blade holder (2) compress tightly, first cutting die (11) can with second cutting die (21) cooperate, with clamp plate with steel band (3) between the backing plate and backing plate with steel band (3) between second blade holder (2) are beaten and are detained, shear blade (12) can with the backing plate cooperate, in order to crisscross cut steel band (3) between the clamp plate with the backing plate.

2. The steel strip packer capable of shearing steel strips in a staggered manner as recited in claim 1, further comprising a second oil cylinder (6), wherein the second oil cylinder (6) is connected to the first tool holder (1) to drive the first tool holder (1) to move in an axial direction.

3. The steel strip packer capable of shearing steel strips in a staggered manner as recited in claim 2, further comprising a mounting plate (7), wherein the mounting plate (7) is located above the first blade holder (1) and the strip guiding member, and wherein the second oil cylinder (6) is located at the mounting plate (7).

4. A steel strip baler of interlaced shearable steel strip according to any one of claims 1 to 3, characterized in that the second seat (2) is provided with a non-slip sheet (8) in a position opposite the strap member.

5. A method of baling steel strip from interlaced shearable steel strips as defined in any one of claims 1 to 4 comprising the steps of:

step S1, the steel belt (3) passes through the upper part of the backing plate and is wound on the periphery of the goods to be bundled, and then is wound around a gap between the backing plate and the second tool apron (2);

step S2, driving the backing plate to move towards the second tool holder (2) so as to compress the steel strip (3) wound between the backing plate and the second tool holder (2) to the second tool holder (2);

step S3, tightening the steel belt (3) above the backing plate to tighten the goods to be bound;

step S4, driving the pressing plate to move towards the backing plate so as to press the steel strip (3) between the pressing plate and the backing plate to the backing plate, driving the first cutter holder (1) to move towards the second cutter holder (2), and enabling the first cutter die (11) to be matched with the second cutter die (21) so as to buckle the steel strip (3) between the pressing plate and the backing plate and the steel strip (3) between the backing plate and the second cutter holder (2), wherein the shearing blade (12) can be matched with the backing plate so as to shear the steel strip (3) between the pressing plate and the backing plate in a staggered manner.

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