KR20120046949A - Bending apparatus of bus bar operating horizontally - Google Patents

Abstract

PURPOSE: A horizontal-operation type bus bar bending device with an improved mold supporting structure is provided to directly supply materials and draw out completed products through the open top of fixed and movable molds. CONSTITUTION: A horizontal-operation type bus bar bending device with an improved mold supporting structure comprises a base member(4), a hydraulic cylinder(7), a movable mold(9), a fixed mold(13), and a reinforcing support block(18). The movable mold is installed on the leading end of a piston rod of the hydraulic cylinder and linearly reciprocates back and forth along the top surface of the base member. The movable mold has a bending groove(11) on the leading end thereof. The fixed mold is inserted into the bending groove when the movable mold approaches, thereby bending a bus bar member. The reinforcing support block is installed on the base member of a work table at the rear side of the fixed mold in order to protect and support the fixed mold against an impact load while bending the bus bar material.

Description

Bending apparatus of bus bar operating horizontally improved mold support structure

The present invention relates to a device for processing bus bars used in various switchboards, distribution boards, and the like, and more particularly, safety and convenience of work during bending processing of bus bar materials are enhanced, and bending of bus bar materials is also performed. (Bending) A horizontal actuated busbar bending processing device that facilitates the entry and exit of busbar materials, accurate position setting, and a simple structure, which greatly improves the impact support strength of fixed molds and improves the visibility of workers. will be.

In general, a connection piece called a bus bar made of a thick plate such as a copper plate or aluminum is used for a switchboard, a distribution panel, a control panel, etc., which is used for the design of a switchboard. Accordingly, various machining operations, such as cutting or bending or punching a plurality of fasteners, are required for mounting and connection with other members. Therefore, a busbar processing apparatus, which is a kind of press apparatus, is used for the processing of the busbar as described above.

Conventional busbar processing apparatus as described above is generally composed of a main body with a built-in drive device, a bending machine, a cutter, a punching machine and the like mounted on the upper portion of the main body. The bending machine, the cutter, and the punching machine are configured by attaching processing means suitable for each purpose to a plurality of presses installed on the upper portion of the main body, and operated by a driving device such as a hydraulic pump installed inside the main body.

As the prior art of the above structure, there is an example of Korean Utility Model Registration No. 20-0091984, which is pre-registered by the present inventors, which has a perforation unit, a bending unit, a cutting unit, etc., formed at the edge of the main body of the apparatus. The control unit is provided with a hydraulic motor on the front of the main body of the device, and as the user operates the control unit, the hydraulic motor provided therein is driven to supply the operating hydraulic pressure to each unit so that each unit can be driven. It is configured to.

The bending unit has a function of bending the bus bar at a predetermined angle, and the upper mold moving up and down by the piston of the hydraulic cylinder installed to operate in the vertical direction is lowered while cooperating with the lower mold. Since the bending angle of the busbar is determined by the distance that the upper mold descends, it is important to precisely control the descending distance of the upper mold by the bending angle of the busbar. The bar material is thick and heavy, requiring a working area around it and taking into account the safety hazard of the operator.

By the way, the bus bar, which is formed by processing and forming bending, cutting, punching, etc. through the bus bar processing apparatus as described above, is mounted on a switchboard, etc. In some cases, installation of switchboards, etc., may require immediate processing and shaping of the busbars according to the site situation.

In some cases, however, a situation in which the busbar material 6 should be bent in two stages as shown in FIG. 5 is common. According to the above-described conventional bending machine structure in which the hydraulic cylinder is driven in the vertical direction, as shown in FIG. In the form of the material 6 is located in front of the worker had a problem that the length of the material 6 is bound to follow due to the interference of the work floor 40, the upper mold 41 is the lower mold ( 42) The lower end of the raw material (6) is rotated in the direction of the arrow when bending down, and the lower part of the raw material (6) rises, causing a risk of safety accident by hitting the worker's body. When the upper mold 41 rises, the busbar material falls due to the rotational motion of the busbar material falling due to the center of gravity of the busbar material 6. The bus bar material (6) is formed of copper material, which can be injured and usually has a low resistance loss of electric current, so that when the work is bent while the worker is holding the material exposed to the air by hand for safety, There was a lot of inconvenience in handling the busbar material 6 of the phosphorus material.

On the other hand, in order to avoid the above problems, as shown in Figure 7, the bus bar material (6) to work in the opposite direction, the bus bar material (6) is located on the top of the device to the operator to grab the material There is a problem that can not control the material at all because it is dangerous.

In general, the place where the distribution panel, distribution panel, control panel, etc. is installed is often narrow, but the conventional busbar processing apparatus as described above is provided with a driving device such as a hydraulic pump and a plurality of presses are formed thereon. Since the device is heavy and large and impossible to move the device, there is also a problem that it is difficult to immediately bend and shape according to the site situation in the installation place, such as switchboard.

On the other hand, in the case of the above-described prior art, as shown in Figure 8, the bending surfaces 43 and 44 of the upper mold 41 and the lower mold 42 are completely in close contact with the surface of the material 6 and thus bent. There was a wasteful factor that required a large bending force for the job, which would make the press device's capacity larger than necessary.

In addition, in the conventional method in which the hydraulic cylinder is installed in the vertical direction as described above, in order to support the hydraulic cylinder 45 as shown in FIG. 6, two support blocks vertically installed on both sides of the hydraulic cylinder 45 ( 46 and 46, and the support structure of the hydraulic cylinder 45 is required because a support block 47 for connecting the two support blocks 46 and 46 to lift and support the hydraulic cylinder 45 is required. Is very complicated, and the side panel 49 of the workbench on which the hydraulic cylinder 45 is mounted has a weak strength and must be separately reinforced to withstand the impact force during hydraulic operation, thereby increasing the cost of manufacturing the device. In particular, the support block 46, 46 and the support block 47 are combined into one uneven engagement structure 48 so that the uneven engagement portion 48 is repeatedly applied without being able to withstand a large force in the vertical direction. Prematurely by losing impact There was a problem of damage and increased maintenance costs.

In addition, under the above-described upper and lower mold structures, when the two-stage bending process of the busbar material 6 (see Fig. 5) is small, the width of the middle portion B between the two bending points 6a and 6b is small so as to avoid interference. There was an inconvenience to be replaced.

In view of these problems, the present inventor has proposed a simple and robust horizontal actuated busbar bending machine factory with a supporting structure of a mold and a hydraulic cylinder through Korean Patent Application No. 2010-14967 (filed date 2010,02,19). .

In the above-mentioned invention, the fixed mold, the movable mold, and the hydraulic cylinder are horizontally installed on the workbench, and the fixed mold and the hydraulic cylinder are fixed on the base member of the workbench, but one end of the support beam is mounted on the upper part of the hydraulic cylinder to reinforce the supporting strength. And the other end of the support beam extends beyond the upper part of the movable mold to have a support structure fixed to the upper part of the fixed mold, and the support beam is designed to serve as an important structure of the movable distance adjusting device of the movable mold. Its demand is low and sufficient strength is secured to withstand the impact force on the material during the reciprocating operation of the hydraulic cylinder.

However, the above-described invention is still an effective invention in that the stroke length adjustment device of the movable mold and the support cylinder of the hydraulic cylinder and the fixed mold are used together, so that the required parts are small and the strength can be easily secured. The same improvement was found.

In the above structure of the upper side of the support beam, the support beam reaches the fixed mold through the upper part of the movable mold and is fixed so that the material between the fixed mold and the movable mold is blocked by the support beam. It can be supplied only through the side of the machine, and the material that has been bent, especially in the case of a large bending angle, a long length, and a thick material, is a heavy material, which is unreasonable to the worker in the process of largely pulling out the material bent to one side of the mold. This action is likely to injure the waist, and after supplying the material, the bending line should be accurately positioned at the tip of the stationary mold, and the worker should be able to observe the bending process. Visual field of view is not secured, which causes inconvenience in positioning the material The problem is that it is difficult to confirm.

Therefore, the present invention has been proposed in view of the above problems, and its object is that the operator does not have to manually handle the bending of the busbar material, which is heavy, and the safety of the operator is ensured, and the hydraulic cylinder and the fixed mold are The installation structure is very simple and the support structure is strong, which reduces the cost and maintenance cost. The upper part of fixed mold and movable mold is open, so the material is supplied directly through the open upper side and finished processing. The material can be pulled out, speeding up the machining process and preventing injuries to the operator, setting the work position of the material is convenient, and horizontally operated booth with improved visibility for the operator to directly check the bending process. It is to provide the bar bending machine factory value.

The present invention and the worktable to achieve the above object; A base member provided horizontally on the worktable; A hydraulic cylinder having a piston rod reciprocating in the horizontal front and rear directions on the base member, the hydraulic cylinder being fixed to the rear side of the base member; A movable mold mounted on the end of the piston rod of the hydraulic cylinder and reciprocating in a forward and backward direction along the upper surface of the base member for bending work, the movable mold having a groove for bending an empty space extending up and down at the front end; A fixed mold installed perpendicularly to the tip side of the base member so as to face the movable mold, and entering the bending recess which is the empty space when the movable mold approaches, bending the bus bar material; And a reinforcement support block installed to be fixed to the base member of the workbench with the rear surface of the fixed mold to protect and support the fixed mold from the impact load applied during the bending work.

According to a specific embodiment of the present invention, a stepped support groove is formed on the rear surface of the fixed mold, and a quadrilateral settling groove having a predetermined depth is formed on the base member, and a lower end of the reinforcement support block is inserted into the squared settling groove. It is supported, the front end surface of the reinforcing support block is characterized in that it is fitted into the stepped support groove is fixed.

In addition, according to the present invention is characterized in that the side cross-sectional shape of the reinforcing support block is trapezoidal.

Also preferably, the reinforcing support block is fixed to the base member by bolts.

In addition, the cylindrical portion extending to the lower end of the fixed mold is inserted into a hole formed by vertically penetrating the body of the base member, and a fixing key for supporting the lower surface of the cylindrical portion on the lower surface of the base member to prevent rotation And secured using bolts.

According to the structure of the present invention, the upper and lower molds and the hydraulic cylinder are installed on the upper surface of the base member so that they are operated horizontally, so that the busbar material is placed on the base member (the thickness of the material is placed on the surface of the base member). It can be bent and not restricted by the size of the material, and there is no falling or upward movement of the material during the bending work, and it is not necessary for the operator to hold a material that is particularly heavy, so the work is easy and safety is greatly improved. The back side of the mold is supported by the reinforcement support block, and the upper side space between the movable mold and the fixed mold is open, so that the material can be directly supplied or drawn out through the open upper space, which is very convenient to improve productivity. It can reduce the workers' risk of handling heavy materials, and can prevent the Visibility is secured due to the open space to the side, and the position setting of the material is easy, and the operator can check the progress of the bending work.

1 is a perspective view of a horizontal actuated busbar bending machine according to the present invention;
Figure 2 is an enlarged perspective view showing only the stationary mold portion of the main portion of the horizontal actuated busbar bending processing apparatus according to the present invention,
Figure 3a is a cross-sectional view showing a fixed mold portion of the main part of the horizontal actuated busbar bending machine according to the present invention,
Figure 3b is a view for showing the fixed state of the fixed mold by cross-sectioning only the base member in the horizontal actuated busbar bending machine factory value according to the present invention from the left side.
Figure 4 is a plan view of a stationary mold portion that is the main part of the horizontal actuated busbar bending machine according to the present invention.
5 is a view showing a busbar material in a state of being bent in two stages.
6 and 7 are views showing the state of the busbar material during the two-stage bending process of the busbar material by the conventional busbar bending machine.
8 is a view showing a state of bending work of the upper and lower molds in the prior vertical hydraulic cylinder.

In order to fully understand the present invention, preferred embodiments of the present invention will be described with reference to the accompanying drawings. Embodiment of the present invention may be modified in various forms, the scope of the invention should not be construed as limited to the embodiments described in detail below. This embodiment is provided to more completely explain the present invention to those skilled in the art. Therefore, the shape of the elements in the drawings and the like may be exaggerated to emphasize a more clear description. It should be noted that the same members in each drawing are sometimes shown with the same reference numerals. In addition, detailed descriptions of well-known functions and configurations that are determined to unnecessarily obscure the subject matter of the present invention are omitted.

Hereinafter, with reference to the accompanying drawings illustrating a preferred embodiment of the present invention, the horizontal actuated busbar bending machine factory value of the present invention will be described in detail.

Horizontal actuated busbar bending machine 1 according to the present invention is provided with a workbench 3, which is a frame structure having a predetermined working height with four wheels 2 at the bottom, and the worktable 3 of On the upper part, a base member 4 (this base member is a shape in which the steel body is integrated into the lower part of the plate, see Fig. 3A) is fixedly installed on both sides of the base member 4. A work plate 5 having a plane is provided so that the upper surface of the work table 3 has a large plane area sufficient to support and support the busbar material 6 (see Fig. 5).

A piston rod fixedly installed in a shape in which a cylindrical hydraulic cylinder 7 is sewn to the rear of the upper surface of the base member 4 (the piston rod is protected by a protective cover 8). In the drawing, the cover cover (not shown by the cover 8) is reciprocated in the horizontal front and rear directions, and the movable mold 9 is fixed to the front end of the piston rod by a plurality of bolts, and the movable mold 9 is the piston rod. It is configured to slide in the front-rear direction on the surface of the base member 4 by the appearance of.

Bending grooves 11 are formed at the front end of the movable mold 9 so that the bending grooves 11 are vertically open, and the planar shape of the movable mold 9 has a V or C shape, and wings 12 protruding at both ends of the movable mold 9. ) Pressurizes the raw material 6 during the bending operation, and when the movable mold 9 is further advanced in the initial press contact state, the tip 13a of the fixed mold 13 to be described later into the V-shaped bending recess 11. ) Becomes a shape that is accommodated is the bending of the material (6). A fixed mold 13, which is a pair with the movable mold 9 and performs the bending work of the busbar material 6, is fixed in the form of a vertical stand in front of the base member 4 for such a bending operation. It is mounted, there are a number of ways to fix it, but as an example as shown in the cross section in Figure 3 to the hole 14 in the vertical direction in the base member 4 body, and to the lower portion of the fixing mold 13 Longitudinally extending cylindrical shaft 15 (cylindrical shaft is a lower end body integral with the fixed mold, and a portion 15 is inserted into the hole 14 of the base member separately) and is formed by penetrating the base member 4 up and down. (14), the lower portion of the base member (4) across the fixing key (16), fastening with bolts 17 to fix the lower surface of the cylindrical portion 15 in the form of a mountain to fix the uneven engagement Rotational movement of the fixed mold 13 by the key 16 It can be configured to support the load while preventing (the fixed mold 13 is a structure that just pull out by applying a force upwards), the fixed mold 13 is movable mold (9) as can be seen in Figure 1 The opposite side is provided with a triangular tip 13a shaped like a bird's beak, but the tip 13a for forming a bending line of the material 6 has a rounded shape. As the approach (9) approaches, the leading edge (13a) of the stationary mold (13) enters the bending groove (11) to bend the material (6) together with the pressing section (12).

2 to 4 are main parts for showing the mold supporting structure according to the present invention, the back of the fixed mold 13 (in the fixed mold, the back surface refers to the opposite side of the tip 13a) during bending work In order to protect and support the fixed mold 13 from the horizontal impact load applied by the movable mold 9, a reinforcement support block 18 is fixedly installed to the base member 4 of the work bench.

As shown in FIGS. 3A and 3B, the reinforcing support block 18 has a cross-sectional shape of a trapezoidal shape, and is provided with a front end surface 18a vertically perpendicular to the surface of the base member 4, and a rear surface thereof. It is provided with an inclined surface (18b), the back of the fixed mold 13 is formed with a stepped support groove 19 dug in a '-shape, the base member (4) a quadrilateral settle groove 20 of a predetermined depth Is formed, the bottom surface (18c) of the reinforcing support block 18 is fitted into the four-sided settling groove 20, the front end surface 18a of the reinforcing support block 18 is the stepped support groove (19) is fixed to, and for a more secure fixing of the reinforcing support block 18, to form a predetermined depth bolt installation hole 21 in a direction perpendicular to the inclined surface (18b), the bolt installation hole ( Insert the bolt 22 through the 21 to the body of the reinforcing support block 18 and the base member 4 It is screwed and fixed directly to the formed female thread (tab screw).

In the drawings, reference numeral 24 denotes a protractor for checking the bending angle of the workpiece 6, and reference numeral 25 denotes a folding bandage device used to support the end of the workpiece for setting the length of the workpiece 6. Since it is described in detail in the present invention, the description is omitted. Reference numeral 26 in FIG. 2 denotes a hole 26 formed for easy insertion or removal of the reinforcing support block 18 into the quadrilateral settling groove 20 formed in the base member 4.

According to the present invention as described above, the cylindrical hydraulic cylinder 7 is fixedly mounted on a separate flat plate member (not shown), and the flat plate member is coupled to the base member 4 in an uneven form to fix the impact force in the horizontal direction. The fixed mold 13 vertically penetrates the body of the base member 4 vertically to support the fixing key 16 and the bolt 17 so as to prevent rotation, but in a horizontal direction. The reinforcement support block 18 firmly supports its back so as not to fall backward by the moment caused by the load, and it is not necessary to install a conventional reinforcement structure such as a canopy on the upper part of the stationary mold 13 and the stationary mold 13 ), The space between the mold and the movable mold 9 is completely open to the upper side, which makes it easy to secure the operator's field of view, and allows the free entry and exit of the material through the upper part of the opened mold, thereby increasing the working speed. Fast and accurate bending is possible.

The embodiment of the horizontal actuated busbar bending processing apparatus described above is merely exemplary, and those skilled in the art to which the present invention pertains may various modifications and other equivalent embodiments therefrom. You can see that. Therefore, it will be understood that the present invention is not limited to the forms mentioned in the above detailed description. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims. It is also to be understood that the present invention includes all modifications, equivalents, and substitutes within the spirit and scope of the invention as defined by the appended claims.

1: Horizontally operated busbar bending machine 2: Wheel
3: worktable 4: base member
5: Workboard 6: Busbar material
7: Hydraulic cylinder 8: Piston rod protection cover
9: Movable mold 11: Bending groove
12: Pressing part 13: Fixed mold
13a: Tip 14: Hole
15: Cylindrical shaft 16: Fixed key
17: Bolt 18: Reinforcement support block
18a: front part 18b: inclined surface
18c: lower surface 19: step support groove
20: square settled groove 21: bolt installation
It is a bolt 22

Claims (5)

Working table; A base member provided horizontally on the worktable; A hydraulic cylinder having a piston rod reciprocating in the horizontal front and rear directions on the base member, the hydraulic cylinder being fixed to the rear side of the base member; A movable mold mounted on the end of the piston rod of the hydraulic cylinder and reciprocating in a forward and backward direction along the upper surface of the base member for bending work, the movable mold having a groove for bending an empty space extending up and down at the front end; A fixed mold installed vertically on the tip side of the base member to face the movable mold, and entering into the bending recess which is the empty space when the movable mold approaches the bending mold; And a reinforcement support block configured to be fixed to the base member of the workbench with the back of the fixed mold to protect and support the fixed mold from the impact load applied during the bending work. Processing equipment.
According to claim 1, wherein the back of the fixed mold is formed with a stepped support groove, the base member is formed with a quadrilateral settling groove of a predetermined depth, the lower end of the reinforcing support block is fitted into the four-sided settling groove is supported The vertical actuated front end surface of the reinforcing support block is horizontally actuated bus bar bending processing apparatus, characterized in that is fitted and fixed to the stepped support groove. The horizontal actuated busbar bending processing apparatus according to claim 1 or 2, wherein the side cross-sectional shape of the reinforcing support block is trapezoidal.
The horizontal actuated busbar bending processing apparatus according to claim 1 or 2, wherein the reinforcing support block is fixed by bolting to the base member.
The cylindrical portion of claim 1 or 2, wherein the cylindrical portion extending to the lower end of the fixed mold is inserted into a hole formed by vertically penetrating the body of the base member, and the lower surface of the cylindrical portion is rotated on the lower surface of the base member. Horizontally operated busbar bending processing device, characterized in that the fixing using a bolt across the holding key to prevent this.

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