CN112756991A - Automatic welding equipment for stainless steel honeycomb core - Google Patents

Abstract

The invention relates to the field of automatic welding equipment, in particular to automatic welding equipment for a stainless steel honeycomb core, which comprises: the automatic feeding device comprises a rack, wherein an electric control unit, a guide rail mechanism and a finished product discharge hole are respectively arranged at the bottom and two ends of the rack; the feeding unit is arranged at any end of the guide rail mechanism; the shifting unit is arranged at one end of the rack close to the guide rail mechanism; the rolling forming unit and the welding unit are adjacently installed on the guide rail mechanism, and the guide rail mechanism drives the rolling forming unit and the welding unit to reciprocate; the electric control unit controls the feeding unit, the rolling forming unit to supply raw materials and the rolling supplied raw materials to manufacture a single honeycomb core, and controls the shifting unit to drive a previous single honeycomb core to be tightly attached to a next single honeycomb core; the welding unit is used for welding the two single honeycomb cores after the displacement unit is attached tightly. The beneficial effects are that: the equipment replaces manual welding of the honeycomb core, reduces labor intensity, and improves production quality and efficiency.

Description

Automatic welding equipment for stainless steel honeycomb core

Technical Field

The invention relates to the field of automatic welding equipment, in particular to automatic welding equipment for a stainless steel honeycomb core.

Background

One of the existing stainless steel honeycomb cores is formed by stamping a whole piece of raw material by a forming method, and due to the uneven application of positioning precision and impact force during stamping, the shape of part of the honeycomb core is irregular, so that the consistency and precision of a finished product are influenced; the other is to press a single honeycomb and then weld the honeycomb into a whole.

However, most of welding processes are manual welding, which has low production efficiency and high manual strength, is not beneficial to automatic production and is also not beneficial to continuous improvement of productivity and quality.

Therefore, a honeycomb welding device is needed, automatic feeding, rolling forming, welding and blanking processes are realized, an automatic control system is configured, the problem of automatic welding is solved, and the working efficiency is improved.

Disclosure of Invention

The invention aims to provide automatic welding equipment for a stainless steel honeycomb core, which aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

an automatic welding device for stainless steel honeycomb cores, comprising: the automatic feeding device comprises a rack, wherein an electric control unit, a guide rail mechanism and a finished product discharge hole are respectively arranged at the bottom and two ends of the rack; the feeding unit is arranged at any end of the guide rail mechanism; the shifting unit is arranged at one end of the rack close to the guide rail mechanism; the rolling forming unit and the welding unit are adjacently installed on the guide rail mechanism, and the guide rail mechanism drives the rolling forming unit and the welding unit to reciprocate; the electric control unit controls the feeding unit, the rolling forming unit to supply raw materials and the rolling supplied raw materials to manufacture a single honeycomb core, and controls the shifting unit to drive a previous single honeycomb core to be tightly attached to a next single honeycomb core; the welding unit is used for welding the two single honeycomb cores after the displacement unit is attached tightly.

As a further scheme of the invention: one side of the rack, which is close to the discharge end of the feeding unit, is provided with a shearing unit, and the shearing unit is used for shearing the raw material end of the single honeycomb core.

As a still further scheme of the invention: the cutting unit comprises scissors, a lifting assembly and an opening and closing driving piece, the scissors and the opening and closing driving piece are installed at the telescopic end of the lifting assembly, the lifting assembly drives the scissors to be close to or far away from the raw material end of the single honeycomb core, and the opening and closing driving piece drives the scissors to open and close.

As a still further scheme of the invention: the feeding unit comprises a feeding frame, a coil mounting mechanism and a discharging mechanism, wherein the coil mounting mechanism and the discharging mechanism are mounted on the feeding frame, raw materials are clamped on the coil mounting mechanism, and the head end of the raw materials penetrates through the discharging mechanism to be connected with the rolling forming unit.

As a still further scheme of the invention: the discharging mechanism comprises a plurality of coil material rollers which are installed on the installation frame in a relative staggered mode, and the head ends of the raw materials are connected with the rolling forming unit after being wound around the coil material rollers in a reciprocating mode.

As a still further scheme of the invention: the rolling forming unit comprises a mounting seat, rolling forming gears and a forming motor, the mounting seat is movably mounted on a guide rail mechanism, two mutually matched rolling forming gear bearings are mounted on the mounting seat, the forming motor is in transmission connection with one of the rolling forming gears, and the forming motor drives the rolling forming gears to press raw materials passing through the two rolling forming gears to form a single honeycomb core.

As a still further scheme of the invention: the welding unit comprises a support frame, feeding press wheels and a laser welding head, the support frame is movably mounted on a guide rail mechanism, two feeding press wheel bearings are mounted on the support frame, a welding station is reserved between the two feeding press wheels, the laser welding head is mounted on the support frame, a light-gathering point of the laser welding head focuses on the welding station, the two feeding press wheels are meshed with a formed single honeycomb chip and a welded honeycomb chip single chip and used for clamping the two honeycomb chips, and the laser welding head is used for welding the joint of the two honeycomb chips.

As a still further scheme of the invention: any feeding pinch roller passes through the lift adjustment subassembly and installs on the support frame, the lift adjustment subassembly is used for adjusting the clearance between two feeding pinch rollers.

As a still further scheme of the invention: the shifting unit comprises a bolt piece, a first power piece and a second power piece, the two first power pieces are oppositely arranged at the top of one end, close to the guide rail mechanism, of the rack, the second power piece is connected with the output ends of the two first power pieces, the bolt piece is arranged at the output end of the second power piece, the first power piece drives the bolt piece and the second power piece to lift, and the second power piece drives the bolt piece to move.

As a still further scheme of the invention: the first power part or the second power part adopts a power cylinder or a power motor.

Compared with the prior art, the invention has the beneficial effects that: the equipment can replace manual welding of the honeycomb core, reduce labor intensity and improve production quality and efficiency.

Drawings

Fig. 1 is a schematic structural diagram of an automatic welding device for a stainless steel honeycomb core in an embodiment of the invention.

FIG. 2 is a schematic structural diagram of a feeding unit according to an embodiment of the present invention.

Fig. 3 is a schematic structural diagram of a rolling forming unit according to an embodiment of the present invention.

Fig. 4 is a schematic front view of the rolling forming unit according to the embodiment of the present invention.

Fig. 5 is a schematic front view of a welding unit according to an embodiment of the present invention.

Fig. 6 is a schematic structural diagram of a welding unit in an embodiment of the present invention.

Fig. 7 is a schematic structural diagram of a cutting unit according to an embodiment of the present invention.

Fig. 8 is a first schematic structural diagram of a shift unit according to an embodiment of the present invention.

Fig. 9 is a second schematic structural diagram of a shift unit according to an embodiment of the invention.

Fig. 10 is a schematic structural diagram of a rack in an embodiment of the invention.

FIG. 11 is a schematic view of the feeding form of the honeycomb core according to the embodiment of the present invention.

FIG. 12 is a schematic view of a monolithic honeycomb core configuration in an embodiment of the invention.

FIG. 13 is a schematic view of a honeycomb core product according to an embodiment of the present invention.

In the drawings: 100. a supply unit; 200. a rolling forming unit; 300. a welding unit; 400. a cutting unit; 500. a shift unit; 600. a frame; 101. coiling stainless steel honeycomb plates; 102. a discharging mechanism; 201. molding the motor; 202. rolling and forming the gear; 301. a feed pinch roller; 302. a laser welding head; 401. industrial scissors; 402. a screw rod; 403. a movable block; 404. an electric telescopic rod; 405. a guide bar; 501. a power cylinder; 502. a power motor; A. a single honeycomb core; B. stainless steel honeycomb core.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The implementations described in the exemplary embodiments below are not intended to represent all implementations consistent with the present disclosure. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the present disclosure, as detailed in the appended claims.

Referring to fig. 1, 2, 10-13, in an embodiment of the present invention, an automatic welding apparatus for stainless steel honeycomb core includes: the automatic feeding device comprises a rack 600, wherein an electric control unit, a guide rail mechanism and a finished product discharge port are respectively arranged at the bottom and two ends of the rack 600; a feeding unit 100 installed at either end of the rail mechanism; a shifting unit 500 mounted at one end of the frame 600 near the guide rail mechanism; the rolling forming unit 200 and the welding unit 300 are adjacently installed on the guide rail mechanism, and the guide rail mechanism drives the rolling forming unit 200 and the welding unit 300 to reciprocate; the electric control unit controls the feeding unit 100, the rolling forming unit 200 to supply raw materials and the rolling supplied raw materials to manufacture a single honeycomb core, and controls the shifting unit 500 to drive the previous single honeycomb core to be tightly attached to the next single honeycomb core; the welding unit 300 is used for welding the two single honeycomb cores after the displacement unit 500 is attached tightly.

Specifically, the electric control unit comprises an electric cabinet, and a relay and a controller which are arranged in the electric cabinet, and the controller is respectively and electrically connected with the feeding unit 100, the guide rail mechanism, the rolling forming unit 200, the welding unit 300 and the shifting unit 500 through a plurality of relays; and controlling each unit or mechanism to work. The feeding unit 100 includes a feeding frame, a material mounting mechanism mounted on the feeding frame, and a discharging mechanism 102, wherein the material is clamped on the material mounting mechanism, and the head end of the material passes through the discharging mechanism to connect with the rolling forming unit 200. The coil stock installation mechanism comprises a coil stock barrel, the coil stock barrel is installed on a feed frame through a coil stock shaft, one end of the coil stock shaft is connected with a coil stock motor in a transmission manner, the discharge mechanism 102 comprises a plurality of coil stock rollers installed on the installation frame in a relative staggered manner, and the head end of the raw material is connected with a rolling forming unit after being wound on the coil stock rollers in a reciprocating manner.

The automatic welding process of the stainless steel honeycomb core comprises the following steps: the controller is for feed unit 100, guide rail mechanism, roll the shaping unit, welding unit and shift unit power supply, feed unit's coiling material motor drives the coiling cylinder rotatory, the release clamping is at the raw materials of coiling cylinder, the raw materials is stainless steel honeycomb panel coil stock 101, the head end of stainless steel honeycomb panel coil stock 101 is walked around the coiling material cylinder and is passed and roll shaping unit 200, guide rail mechanism drives simultaneously and rolls shaping unit 200 and move towards feed unit, the stainless steel honeycomb panel coil stock 101 that passes rolling shaping unit 200 is pressed into first single honeycomb core A. Then, manually moving the first single honeycomb core A to a finished product discharge port for a displacement, wherein the displacement is the honeycomb width of the stainless steel honeycomb core; the guide rail mechanism drives the rolling forming unit 200 to reset, and the second single honeycomb core A is pressed; after the second single honeycomb core A is pressed, the guide rail mechanism drives the rolling forming unit to reset, and the first single honeycomb core A is manually driven to be tightly attached to the second single honeycomb core A; the guide rail mechanism drives the welding unit to move towards the feeding unit, the first single honeycomb core A and the second single honeycomb core A which are tightly attached are clamped in the moving process, the attaching position is welded to be made into a part in one version of a stainless steel honeycomb core, and then the shifting unit replaces manpower to shift and tightly attach the single honeycomb core A; until a version of the stainless steel honeycomb core is completed. Because stainless steel honeycomb core has formed the honeycomb, the unit of shifting can insert or take out the honeycomb to promote the honeycomb after inserting the honeycomb and carry out corresponding removal, need not the manual work and carry out third, fourth and N single honeycomb core A's removal, can accomplish automatically by the unit of shifting, other single honeycomb core A except first, two single honeycomb core A in the stainless steel honeycomb core of a version, paste tightly and shift by the unit of shifting. And after the stainless steel honeycomb core B of one version is welded, the stainless steel honeycomb core B is manually taken down from a finished product discharge port and transported away.

It should be noted that, in the moving process of the guide rail mechanism, the rolling forming unit and the welding unit can be driven to move independently or synchronously to perform pressing and welding respectively or synchronously, and the specific working mode can be configured according to the actual application scenario.

In addition, guide rail mechanism includes support body, guide rail, guide screw, slide and lead screw motor, the guide rail passes through the support body setting and is in the one end of keeping away from the finished product discharge gate of frame 600, guide screw bearing installs on the support body, and is parallel with the guide rail, the lead screw motor is installed in the one end of guide screw, and rolling forming unit and welding unit install on the slide with guide screw thread fit, and the lead screw motor drives rolling forming unit and welding unit reciprocating motion through guide screw, slide.

Therefore, the automatic welding equipment for the stainless steel honeycomb core replaces manual work to carry out the processes of feeding, rolling and forming and welding of stainless steel honeycomb core coil materials; realize the automation, improve work efficiency, save the manual work.

Further, as shown in fig. 7, a cutting unit 400 is installed at a side of the frame near the discharge end of the feeding unit, and the cutting unit 400 is used for cutting the raw material end of the single honeycomb core.

The cutting unit comprises scissors, a lifting assembly and an opening and closing driving piece, the scissors and the opening and closing driving piece are installed at the telescopic end of the lifting assembly, the lifting assembly drives the scissors to be close to or far away from the raw material end of the single honeycomb core, and the opening and closing driving piece drives the scissors to open and close.

In practical application, the scissors can be industrial scissors 401, and the lifting assembly can be an electric telescopic rod 404 or a lifting cylinder. The opening and closing driving piece selects a positive and negative motor which is arranged at the output end of the electric telescopic rod 404 or the lifting cylinder through the movable block 403; a guide rod 405 installed in parallel to the frame guides the movement of the movable block 403. The output shaft of positive and negative motor has lead screw 402, and the nut is installed to the screw thread on the lead screw 402, the welding of nut both sides has two connecting rods, two the handle end of industrial scissors 401 is connected respectively to the connecting rod, electric telescopic handle 404 drives industrial scissors 401 and is close to or keeps away from the raw materials end of single honeycomb core, and positive and negative motor rotation drives the nut and moves on the output shaft of positive and negative motor, and the nut drives the raw materials end and the raw materials that industrial scissors 401 opened and shut and be used for cutting off single honeycomb core through the connecting rod to be connected. The arranged cutting unit further improves the automation degree of the equipment.

Referring to fig. 3 and 4, in another embodiment of the present invention, the rolling forming unit includes a mounting base, rolling forming gears 202 and a forming motor 201, the mounting base is movably mounted on the rail mechanism, two mutually matched rolling forming gears 202 are bearing-mounted on the mounting base, the forming motor 201 is in transmission connection with one of the rolling forming gears 202, and the forming motor drives the rolling forming gear to press the raw material passing through between the two rolling forming gears 202 to form a single honeycomb core.

Referring to fig. 5 and 6, in another embodiment of the present invention, the welding unit includes a support frame, two feeding pressing wheels 301 and a laser welding head 302, the support frame is movably mounted on a rail mechanism, the two feeding pressing wheels 301 are mounted on the support frame in a bearing manner, a welding station is left between the two feeding pressing wheels 301, the laser welding head 302 is mounted on the support frame, a light-gathering point of the laser welding head focuses on the welding station, the two feeding pressing wheels 301 are engaged with a single honeycomb core formed and a single honeycomb core welded to clamp the two honeycomb cores, and the laser welding head welds a joint of the two honeycomb cores.

In a preferred embodiment of the present invention, any of the feed rollers 301 is mounted on the supporting frame by a lifting adjustment assembly for adjusting the gap between the two feed rollers.

The lifting adjusting assembly comprises a lifting hydraulic rod, the feeding pinch roller 301 at the top of the welding station is installed at one end of the lifting hydraulic rod through a connecting plate, and the other end of the lifting hydraulic rod is installed on the connecting plate on the plane where the welding station is located. The feeding pinch rollers at the top of the welding station are adjusted through the lifting hydraulic rod, and the feeding pinch rollers are used for adjusting the gap between the two feeding pinch rollers; in this way, a plurality of honeycomb chip bodies with different heights can be automatically welded by the device.

Referring to fig. 8 and 9, in another embodiment of the present invention, the shifting unit includes a latch member, a first power member and a second power member, the two first power members are relatively installed on the top of one end of the rack near the guide rail mechanism, the second power member is connected to the output ends of the two first power members, the latch member is installed on the output end of the second power member, the first power member drives the latch member and the second power member to lift, and the second power member drives the latch member to move.

The first power part adopts a power cylinder 501, the second power part adopts a power motor 502, the two power cylinders 501 are oppositely arranged at the top of one end of the rack close to the guide rail mechanism, the telescopic ends of the two power cylinders 501 are connected through a connecting pipe, a transfer platform is arranged below the connecting pipe, a plurality of parallel transmission shafts are slidably arranged on the transfer platform, one ends of the plurality of parallel transmission shafts are connected with the power motor 502, and a bolt is vertically arranged at the other end of the plurality of parallel transmission shafts; the power motor 502 drives the bolt to move through the transmission shaft; the two power cylinders 501 synchronously drive the transfer platform and the transfer platform, the power motor 502 and the bolt thereon to lift.

In the working process of the shifting unit, a single honeycomb core behind a second single honeycomb core of a stainless steel honeycomb core needs to be shifted, welding is convenient to carry out, the welded single honeycomb core is tightly attached to the single honeycomb core behind the welded single honeycomb core after welding, the shifting and the attaching process are realized by driving a bolt to be inserted into a honeycomb of the stainless steel honeycomb core by a power cylinder 501, and then driving the bolt to move by a power motor 502.

Further, the first power member or the second power member adopts a power cylinder 501 or a power motor 502.

The working principle of the invention is as follows: the electric control unit controls the feeding unit 100 to supply the stainless steel honeycomb panel coil stock 101 to the rolling forming unit, the head end of the stainless steel honeycomb panel coil stock 101 bypasses a coil stock roller and passes through the rolling forming unit 200, meanwhile, the guide rail mechanism drives the rolling forming unit 200 to move towards the feeding unit, and the stainless steel honeycomb panel coil stock 101 passing through the rolling forming unit 200 is pressed into a first single honeycomb chip A. Then, manually moving the first single honeycomb core A to a finished product discharge port for a displacement, wherein the displacement is the honeycomb width of the stainless steel honeycomb core; the guide rail mechanism drives the rolling forming unit 200 to reset, and the second single honeycomb core A is pressed; after the second single honeycomb core A is pressed, the guide rail mechanism drives the rolling forming unit to reset, and the first single honeycomb core A is manually driven to be tightly attached to the second single honeycomb core A; the guide rail mechanism drives the welding unit to move towards the feeding unit, the first single honeycomb core A and the second single honeycomb core A which are tightly attached are clamped in the moving process, the attaching position is welded to be made into a part in one version of a stainless steel honeycomb core, and then the shifting unit replaces manpower to shift and tightly attach the single honeycomb core A; until a version of the stainless steel honeycomb core is completed.

It should be noted that the controller, the power cylinder 501 or the power motor 502 adopted in the present invention are all prior art applications, and those skilled in the art can implement the intended functions according to the related description, or implement the technical features required to be accomplished by similar techniques, and will not be described in detail herein.

Other embodiments of the disclosure will be apparent to those skilled in the art from consideration of the specification and practice of the disclosure herein. This application is intended to cover any variations, uses, or adaptations of the disclosure following, in general, the principles of the disclosure and including such departures from the present disclosure as come within known or customary practice within the art to which the disclosure pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the disclosure being indicated by the following claims.

It will be understood that the present disclosure is not limited to the precise arrangements described above and shown in the drawings and that various modifications and changes may be made without departing from the scope thereof. The scope of the present disclosure is limited only by the appended claims.

Claims (10)

1. The utility model provides a stainless steel honeycomb core automatic weld equipment which characterized in that includes:

the automatic feeding device comprises a rack, wherein an electric control unit, a guide rail mechanism and a finished product discharge hole are respectively arranged at the bottom and two ends of the rack;

the feeding unit is arranged at any end of the guide rail mechanism;

the shifting unit is arranged at one end of the rack close to the guide rail mechanism; and

the rolling forming unit and the welding unit are adjacently installed on the guide rail mechanism, and the guide rail mechanism drives the rolling forming unit and the welding unit to reciprocate;

the electric control unit controls the feeding unit, the rolling forming unit to supply raw materials and the rolling supplied raw materials to manufacture a single honeycomb core, and controls the shifting unit to drive a previous single honeycomb core to be tightly attached to a next single honeycomb core; the welding unit is used for welding the two single honeycomb cores after the displacement unit is attached tightly.

2. The automatic welding equipment for stainless steel honeycomb cores according to claim 1, wherein a shearing unit is installed on one side of the machine frame close to the discharge end of the feeding unit, and the shearing unit is used for shearing the raw material end of a single honeycomb core.

3. The automatic welding equipment for the stainless steel honeycomb cores according to claim 2, wherein the cutting unit comprises scissors, a lifting assembly and an opening and closing driving member, the scissors and the opening and closing driving member are arranged at a telescopic end of the lifting assembly, the lifting assembly drives the scissors to be close to or far away from a raw material end of the single honeycomb core, and the opening and closing driving member drives the scissors to open and close.

4. The automatic welding equipment for the stainless steel honeycomb cores according to claim 1, wherein the feeding unit comprises a feeding frame, a rolling material mounting mechanism and a discharging mechanism, the rolling material mounting mechanism and the discharging mechanism are mounted on the feeding frame, the raw material is clamped on the rolling material mounting mechanism, and the head end of the raw material penetrates through the discharging mechanism to be connected with the rolling forming unit.

5. The automatic welding equipment for the stainless steel honeycomb cores according to claim 4, wherein the discharging mechanism comprises a plurality of material rolling rollers which are installed on the installation frame in a relative staggered mode, and the head ends of the raw materials are connected with the rolling forming unit after being wound around the material rolling rollers in a reciprocating mode.

6. The automatic welding equipment for the stainless steel honeycomb cores according to claim 1, wherein the rolling forming unit comprises a mounting seat, rolling forming gears and a forming motor, the mounting seat is movably mounted on a guide rail mechanism, two mutually matched rolling forming gear bearings are mounted on the mounting seat, the forming motor is in transmission connection with one of the rolling forming gears, and the forming motor drives the rolling forming gears to press raw materials passing through between the two rolling forming gears to form the single honeycomb core.

7. The automatic welding equipment for the stainless steel honeycomb cores according to claim 1, wherein the welding unit comprises a support frame, feeding press wheels and a laser welding head, the support frame is movably arranged on a guide rail mechanism, two feeding press wheel bearings are arranged on the support frame, a welding station is reserved between the two feeding press wheels, the laser welding head is arranged on the support frame, a light-gathering point of the laser welding head focuses on the welding station, the two feeding press wheels are meshed with a formed single honeycomb core and a welded honeycomb core single sheet and used for clamping the two honeycomb cores, and the laser welding head is used for welding a joint of the two honeycomb cores.

8. The automatic welding equipment for the stainless steel honeycomb cores according to claim 7, wherein any one of the feeding pinch rollers is installed on the supporting frame through a lifting adjusting assembly, and the lifting adjusting assembly is used for adjusting the gap between the two feeding pinch rollers.

9. The automatic welding equipment for the stainless steel honeycomb cores according to claim 1, wherein the displacement unit comprises a latch member, a first power member and a second power member, the two first power members are oppositely arranged on the top of one end of the machine frame close to the guide rail mechanism, the second power member is connected with the output ends of the two first power members, the latch member is arranged on the output end of the second power member, the first power member drives the latch member and the second power member to lift, and the second power member drives the latch member to move.

10. The automatic welding apparatus of stainless steel honeycomb core of claim 9, characterized in that the first or second power member employs a power cylinder or a power motor.

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