CN213134582U - Automatic unloader of fin shaping - Google Patents

Abstract

The utility model belongs to the technical field of the button processing technique and specifically relates to an automatic unloader of fin shaping is related to, including frame base, high pressure air cock part, bend and push down the part of bending, push down the part of bending and set up the upper end at the frame base, push down the perpendicular downward setting of the part of bending, bend the part of bearing, set up the top of frame base under the part of bending of pushing down, high pressure air cock part sets up on frame base top, the frame base sets up under the part of bending, and this application can start to push down the part of bending according to operating personnel and realize the operation from top to bottom of automatic rising, and the rethread is blown to the square part box the inside of the part of bending by high pressure air cock, and the operation of bending to single part is then accomplished to the combination of above-mentioned all processes.

Description

Automatic unloader of fin shaping

Technical Field

The utility model belongs to the technical field of the fin processing technique and specifically relates to an automatic unloader of fin shaping is related to.

Background

According to traditional bender generally all accomplish through artifical manual unloading, the operation mode not only efficiency is not high, but also has increased personnel's work.

The bending machine of the existing equipment has the following problems: firstly, the blanking of the traditional bending machine is generally manually operated by personnel, so that not only is the working efficiency low, but also the long-time operation is easy to cause harm to the health of the personnel; secondly, when some parts to be bent are bent in the existing equipment, the parts are bent manually or by foot stepping on the parts by personnel, so that the workload of the personnel is increased.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an automatic unloader of fin shaping has solved among the prior art can only manual operation fifty percent discount bender unloading, can only manual or the foot step on and to the technical problem of the unable processing of size of a dimension to the part that will bend.

The utility model provides an automatic unloader of fin shaping, including frame base, high pressure air cock part, the carrier of bending pushes down the carrier, pushes down the carrier and sets up the upper end at the frame base, it sets up downwards perpendicularly to push down the carrier, the carrier of bending sets up under the carrier that pushes down and is located the top of frame base, high pressure air cock part sets up the top at the frame base.

Further, the frame base includes bottom plate, two backup pads, square part box, I-shaped bracing piece and bracing piece, two the backup pad is in the bottom both sides of bottom plate, square part box sets up in the top of two backup pads and is located the lateral wall of bottom plate, the bracing piece setting of I-shaped is in the half rectangular channel department of two bottom plate belows, and runs through between two backup pads, the bracing piece sets up in the bottom plate below, and runs through in the top of two backup pads.

Further, high pressure air cock part includes air cock, trachea, memotron and air pump, the air cock sets up the top at the memotron, the trachea is connected in the below of memotron, and the memotron setting is on the top of base, the trachea is connected in the upper end of air pump, and the air pump setting is in the top of bottom plate lateral wall.

Further, the bending bearing part comprises a rectangular part box, two adjusting screws, a bending bearing plate, four sliding blocks, two fixing screws and a Y-shaped channel, the rectangular part box is arranged above the bottom plate and penetrates through the front ends of the two fixing screws of the bending bearing part, the two adjusting screws are respectively arranged under the pressing bearing part and penetrate through the two ends of the inner side wall of the bending bearing plate and are in one-to-one correspondence with the two fixing screws, the bending bearing plate is arranged under the top end of the bottom plate and the punching bearing plate, the four sliding blocks are divided into two groups, two groups are arranged in two groups, two groups are arranged above the bending bearing plate and penetrate between the two adjusting screws, the two fixing screws are respectively arranged at symmetrical rectangular grooves on the side wall of the rectangular part box and are inserted into the bending bearing plate, and the Y-shaped channel is arranged at the top of the bottom plate, and is located below the stamped carrier plate between the two support posts.

Further, the downward-pressing bearing part comprises a motor, four support columns, four screw rods, an automatic lifting plate, a punching bearing plate, a motor support plate and a tool bit, the motor is cylindrical and is arranged at the top end of the motor supporting plate, the four supporting columns are divided into two groups, two supporting columns are arranged right above the base of the frame, and respectively penetrate through the left side and the right side of the stamping bearing plate and the motor supporting plate, the four screw rods are divided into two groups, two screw rods are arranged in two groups and are vertically arranged at the two sides of the automatic lifting plate in a penetrating way, the automatic lifting plate is horizontally and vertically arranged at the center of the stamping bearing plate and the supporting plate, the tool bit is positioned under the automatic lifting plate, the stamping bearing plate and the motor supporting plate are arranged above the base and horizontally penetrate through the upper layer and the lower layer of the four supporting columns respectively, a rectangular hole is formed in the center of the stamping bearing plate and corresponds to the tool bits on the automatic lifting plate one by one.

Compared with the prior art, the beneficial effects of the utility model reside in that:

one of them, this application has set up high pressure air cock part, and the carrier that bends pushes down the perpendicular downward setting of carrier, and the tool bit of bending that pushes down the carrier can realize the operation from top to bottom of automatic rising through operating personnel to alleviate operating personnel's work load, the carrier that bends can be adjusted according to the part of not unidimensional size, thereby has increaseed the suitability to not unidimensional part, high pressure air cock is through the gas brought by high compression pump, blows off towards the top of the carrier that bends, blows to the square part box of carrier that bends in with the part of bending by high pressure air cock, need not to take out the part of bending by operating personnel again, puts into square part box in, thereby has improved production efficiency, has alleviateed personnel's work load.

Two, two backup pads are for pushing down bearing part when the downward operation, provide stable processing environment, and square parts box is through high-pressure air cock part blow the part of bending to parts box, play the effect of placing to the part of bending to personnel need not putting into square parts box's work load through the part of bending.

Thirdly, the bending bearing part is adjusted by controlling the slide block to move left and right through the adjusting screw rod on the bearing plate according to parts with different sizes, thereby increasing the applicability of the bending machine to the parts to be bent, and then placing the parts to be bent on the bearing plate, by pressing the bearing part downwards to punch, the bending bearing plate can support the bearing part downwards to work in a more stable environment, and then the bearing part is pressed downwards to work to bring the part into an L-shaped state, blow off to the part of having bent by high pressure air cock part, blow the part to Y shape passageway, come the square part box of carrying that the part of having bent can be accurate by Y shape passageway in, guarantee to wait that the part of bending can not take place the skew and blow outside the Y shape passageway to alleviate operating personnel's burden, operation that can be better and improvement production efficiency.

The utility model discloses a take-up component, including motor support plate, screw post, automatic lifting plate, motor, bearing part, it can be used for the motor to push down the motor, the bearing part is supported the motor by the motor support plate and has improved stable operational environment for the motor when the operation, four support columns play a fixed action and guarantee can not take place the skew for pushing down trompil part when the operation, drive the screw post through the motor, do rotation state and automatic lifting plate operation by the screw post, it can the up-and-down motion to realize the automatic lifting plate, accomplish the punching press to the part by the tool bit on the automatic lifting plate of doing work downwards, thereby alleviate operating personnel's the unnecessary work load that need not to realize the bender bending to the part through hand or foot is stepped on, greatly reduced operating personnel.

Fifthly, high pressure air cock part begins the operation by the air pump, carries the trachea to gas, carries the storage tube through the trachea in, in rethread storage tube carries the gas to the gas cock, blows off gas to the bearing part direction of bending by the air cock, blows the part of having bent to square part box, just so need not carry out the manual part of taking out the part of having bent through operating personnel, has reduced operating personnel's work load and the harm to the health of long-time work.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic perspective view of the present invention;

fig. 2 is a schematic perspective view of the present invention;

FIG. 3 is a schematic view of a partial three-dimensional structure of the present invention;

fig. 4 is a schematic view of a partial three-dimensional structure of the present invention;

FIG. 5 is an enlarged view of the structure at A in FIG. 4;

fig. 6 is a top view of the bending bearing component of the present invention.

Reference numerals: the part pressing and loading device comprises a rack base 1, a high-pressure air nozzle component 2, a bending bearing component 3, a pressing bearing component 4, a bottom plate 10, a supporting plate 11, a square part box 12, an I-shaped supporting rod 13, a supporting rod 14, an air nozzle 20, an air pipe 21, a storage pipe 22, an air pump 23, a rectangular part box 30, an adjusting screw 31, a bending bearing plate 32, a sliding block 33, a fixing screw 34, a Y-shaped channel 35, a motor 40, a supporting column 41, a screw rod 42, an automatic lifting plate 43, a stamping bearing plate 44, a motor supporting plate 45 and a tool bit 46.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the accompanying drawings, and obviously, the described embodiments are some, but not all embodiments of the present invention.

The components of the embodiments of the present invention, as generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention.

Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1 to 6, an embodiment of the present invention provides an automatic blanking device for forming cooling fins, including a frame base 1, a high pressure air nozzle component 2, a bending bearing component 3, and a pressing bearing component 4.

The press bearing part 4 is arranged at the upper end of the frame base 1, the press bearing part 4 is vertically arranged downwards, the bending cutter head 46 of the press bearing part 4 can realize automatic vertical up-and-down operation by an operator, thereby reducing the workload of the operator, the bending bearing part 3 is arranged under the press bearing part 4 and above the frame base 1, the bending bearing part 3 can be adjusted according to parts with different sizes, thereby increasing the applicability to the parts with different sizes, the high pressure air nozzle part 2 is arranged above the frame base 1, the high pressure air nozzle part 2 blows towards the upper part of the bending bearing part 3 by air brought by the high pressure air pump 23, the part taken by bending is blown into the square part box 12 of the bending bearing part 3 by the high pressure air nozzle part 2, and the bent part does not need to be discharged by the operator any more, put into square parts box 12 to improved production efficiency, alleviateed operating personnel's work load, frame base 1 sets up under the carriage 3 that bends, provides more stable operational environment for pushing down carriage 4 operation. An operator adjusts the bending bearing part 3 according to parts with different sizes, the part to be bent is placed on the bending bearing part 3, the pressing bearing part 4 is started to enable the tool bit 46 to punch downwards, the bending end of the pressing bearing part 4 is punched with the part, the part is successfully brought into an L-shaped state, the part is blown to the square part box 12 through the high-pressure air nozzle 20, and the bending operation of the single part is completed by the combination of all the procedures.

The frame base 1 comprises a bottom plate 10, two supporting plates 11, a square part box 12, an I-shaped supporting rod 13 and a supporting rod 14, wherein the two supporting plates 11 are arranged at two sides of the bottom plate 10, the square part boxes 12 are arranged above the two support plates 11 and on the side walls of the bottom plates 10, the I-shaped support rods 13 are arranged at the semi-rectangular grooves below the two bottom plates 10, and penetrates between the two supporting plates 11, the supporting rod 14 is arranged below the bottom plate 10 and penetrates above the two supporting plates 11, the two supporting plates 11 are used for pressing the bearing part 4 downwards, provides a stable processing environment, the square part box 12 blows the bent parts to the square part box 12 through the high-pressure air nozzle 20 part 2, plays a role in placing the bent parts, thereby reducing the workload of personnel to put the bent parts into the square part box 12 without the need of holding the bent parts by hands.

The high pressure air nozzle part 2 comprises an air nozzle 20, an air pipe 21, a storage pipe 22 and an air pump 23, the air nozzle 20 is arranged above the storage pipe 22, the air pipe 21 is connected below the storage pipe 22, the storage pipe 22 is arranged at the top end of the bottom plate, the air pipe 21 is connected above the air pump 23, the air pump 23 is arranged above the side wall of the bottom plate 10, the operator presses the press-down bearing part 4 downwards, the air pump 23 starts to operate, air is conveyed to the air pipe 21, the air pipe 21 is conveyed into the storage pipe 22, the air is conveyed into the air nozzle 20 through the storage pipe 22, the air is blown off towards the direction of the bending bearing part 3 by the air nozzle 20, the bent part is blown towards the square part box 12, therefore, the bent parts do not need to be manually taken out by operators, and the workload of the operators and the harm to the health of the operators caused by long-time work are reduced.

The bending bearing part 3 comprises a rectangular part box 30, two adjusting screws 31, a bending bearing plate 32, four sliders 33, two fixing screws 34 and a Y-shaped channel 35, wherein the rectangular part box 30 is arranged above the bottom plate 10 and penetrates through the front ends of the two fixing screws 34 of the bending bearing part 3, the two adjusting screws 31 are respectively arranged under the pressing bearing part 4 and penetrate through the two ends of the inner side wall of the bending bearing plate 32 and are in one-to-one correspondence with the two fixing screws 34, the bending bearing plate 32 is arranged under the top end of the bottom plate 10 and the punching bearing plate 44, the four sliders 33 are divided into two groups, two groups are arranged, two groups are respectively arranged above the bending bearing plate 32 and penetrate between the two adjusting screws 31, the two fixing screws 31 are respectively arranged at the rectangular grooves on the side wall of the rectangular part box 30 and are inserted in the bending bearing plate 32, the Y-shaped channel 35 is arranged at the top of the bottom plate 10 and is positioned below the stamping bearing plate 44 and between the two supporting columns 41, the parts to be bent stored in the rectangular part box 30 can be taken out by an operator, the parts to be bent placed in the rectangular part box 30 are controlled by the adjusting screw 31 on the bearing plate to move left and right to be adjusted according to the parts with different sizes, so that the applicability of the parts to be bent of the bending machine is improved, the parts to be bent are placed on the bearing plate and are stamped downwards by pressing the bearing part 4, the bending bearing plate 32 can improve a more stable environment when the bearing part 4 is pressed downwards, the parts are brought into an L-shaped state by the downward operation of the bearing part 4, and the bent parts are blown off by the high-pressure air nozzle part 2, the parts are blown to the Y-shaped channel 35, the bent parts can be accurately conveyed into the square part box 12 through the Y-shaped channel 35, the parts to be bent cannot deviate and are blown out of the Y-shaped channel 35, accordingly, the burden of operators is relieved, and better operation and production efficiency are achieved.

The downward-pressing bearing part 4 comprises a motor 40, four supporting columns 41, four screw rods 42, an automatic lifting plate 43, a punching bearing plate 44, a motor supporting plate 45 and a tool bit 46, wherein the motor 40 is cylindrically arranged at the top end of the motor supporting plate 45, the four supporting columns 41 are divided into two groups, two groups are arranged right above the frame base 1 and respectively penetrate through the punching bearing plate 44 and the left side and the right side of the motor supporting plate 45, the four screw rods 42 are divided into two groups, two groups are arranged vertically and respectively penetrate through the two sides of the automatic lifting plate 43, the automatic lifting plate 43 is horizontally and vertically arranged at the centers of the punching bearing plate 44 and the motor supporting plate, the tool bit 46 is positioned right below the automatic lifting plate 43, the punching bearing plate 44 and the motor supporting plate 45 are respectively arranged above the frame base 1 and horizontally penetrate through the upper layer and the lower layer of, there is a rectangular hole in the center of the punching press loading board 44 to correspond to the cutter head 46 on the automatic lifting board 43 one by one, the motor 40 is started by the operator, the motor 40 is supported by the motor supporting board 45 to improve the stable working environment for the motor 40 during operation, four supporting columns 41 play a fixed role to ensure that no deviation occurs during operation for pressing the hole-opening component, the lead screw 42 is driven by the motor 40, the work is done by the lead screw 42 and the automatic lifting board 43 to realize that the automatic lifting board 43 can move up and down, the punching press to the part is completed by the downward work of the cutter head 46 on the automatic lifting board 43, thereby reducing the bending of the part by the bending machine without being stepped on by hands or feet by the operator, greatly reducing the redundant workload of the operator, and reducing the harm to the waist and the spine of the operator.

The working principle is as follows: the part to be bent placed in the rectangular part box 30 is taken out by an operator, the screw rods 31 on the two sides of the bending bearing plate 32 are adjusted according to the size of the part to be bent, the slide block 33 is adjusted by moving the screw rods 31 left and right, the part to be bent is placed on the bending bearing part 3, the operator starts the motor 40 for pressing the top end of the bearing part 4 downwards, the motor 40 drives the screw rod 42, the automatic lifting plate 43 is matched with the screw rod to automatically press and bend the part downwards and vertically by the tool bit 46 positioned below the lifting plate 43, then the bent part in an L-shaped state is taken up by the tool bit 46, air is conveyed to the air pipe 21 by the air pump 23, the air is conveyed into the air storage pipe 22 by the air pipe 21 and conveyed into the air nozzle 20 by the air storage pipe 22, and is blown to the upper part of the bending bearing part 3 by the air nozzle 20, the bent parts in the L-shaped state are blown to the Y-shaped channel 35, and then the bent parts can be accurately conveyed to the square part box 12 through the Y-shaped channel 35, so that the bent parts cannot deviate, and the bending operation of the parts is completed.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.

Claims (5)

1. The utility model provides an automatic unloader of fin shaping which characterized in that: including frame base (1), high pressure air cock part (2), bend carrier (3), push down carrier (4) and set up the upper end in frame base (1), it sets up downwards perpendicularly to push down carrier (4), bend carrier (3) and set up under pushing down carrier (4) and be located the top of frame base (1), high pressure air cock part (2) set up the top in frame base (1), frame base (1) sets up under carrier (3) of bending.

2. The automatic blanking device for forming the cooling fin according to claim 1, wherein: frame base (1) includes bottom plate (10), two backup pads (11), square part box (12), I-shaped bracing piece (13) and bracing piece (14), two backup pad (11) is in the both sides of bottom plate (10) bottom, square part box (12) set up in the top of two backup pads (11) and are located the lateral wall of bottom plate (10), I-shaped bracing piece (13) set up in half rectangular channel department of two bottom plates (10) below, and run through between two backup pads (11), bracing piece (14) set up in bottom plate (10) below, and run through in the top of two backup pads (11).

3. The automatic blanking device for forming the cooling fin according to claim 2, wherein: high pressure air cock part (2) include air cock (20), trachea (21), storage tube (22) and air pump (23), air cock (20) set up the top at storage tube (22), trachea (21) are connected in the below of storage tube (22), and storage tube (22) set up the top at frame base (1), trachea (21) are connected in the top of air pump (23), and air pump (23) set up the top at bottom plate (10) lateral wall.

4. The automatic blanking device for forming the cooling fin according to claim 3, wherein: the bending bearing part (3) comprises a rectangular part box (30), two adjusting screws (31), a bending bearing plate (32), four sliders (33), two fixing screws (34) and a Y-shaped channel (35), the rectangular part box (30) is arranged above the base plate (10) and penetrates through the front ends of the two fixing screws (34) of the bending bearing part (3), the two adjusting screws (31) are respectively arranged under the pressing bearing part (4) and penetrate through the two ends of the inner side wall of the bending bearing plate (32) and correspond to the two fixing screws (34) one by one, the bending bearing plate (32) is arranged under the top end of the base plate (10) and the stamping bearing plate (44), the four sliders (33) are divided into two groups, two of which are respectively corresponding to the upper part of the bending bearing plate (32) and penetrate between the two adjusting screws (31), the two fixing screws (34) are respectively arranged on the side wall of the rectangular part box (30) and in symmetrical rectangular grooves and are inserted into the bending bearing plate (32), and the Y-shaped channel (35) is arranged at the top of the bottom plate (10), is positioned below the punching bearing plate (44) and is positioned between the two support columns (41).

5. The automatic blanking device for forming the cooling fin according to claim 4, wherein: the downward-pressing bearing part (4) comprises a motor (40), four supporting columns (41), four screw rods (42), an automatic lifting plate (43), a stamping bearing plate (44), a motor supporting plate (45) and a tool bit (46), wherein the motor (40) is arranged cylindrically and is arranged at the top end of the motor supporting plate (45), the four supporting columns (41) are divided into two groups, two of which are arranged right above the frame base (1) and respectively penetrate through the stamping bearing plate (44) and the left side and the right side of the motor supporting plate (45), the four screw rods (42) are divided into two groups, two of which are arranged right above the automatic lifting plate (43) and vertically penetrate through the two sides of the automatic lifting plate (43), the automatic lifting plate (43) is horizontally and vertically arranged at the centers of the stamping bearing plate (44) and the motor supporting plate (45), and the tool bit (46) is arranged right below the automatic lifting, the punching press loading board (44) and the motor supporting plate (45) are arranged above the rack base (1) and horizontally penetrate through the upper layer and the lower layer of the four supporting columns (41), and a rectangular hole is formed in the center of the punching press loading board (44) and corresponds to the tool bits (46) on the automatic lifting plate (43) one by one.

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