CN210997087U - Cutting device is used in processing of air energy water heater chassis subassembly - Google Patents

Abstract

The utility model belongs to the technical field of air can water heater chassis subassembly processing technique and specifically relates to an air can water heater chassis subassembly processing and uses cutting device, including the cutting mounting bracket, the portal frame that welds perpendicularly on the cutting mounting bracket, be equipped with P L C controller on the lateral wall of portal frame left side, the positive left side center department of portal frame has X axle motor through bolted connection, X axle lead screw is connected through shaft connector to the drive end of X axle motor, the utility model discloses a design X, Z, Y axial lead screw motion structure to drive the laser cutting head according to the lead screw motion principle, polish through the polishing head immediately after X, Z, Y axial cuts, thereby realized diversified cutting and will polish and cut the integration, thereby improved cutting equipment's performance, practiced thrift a large amount of time, and then improved work efficiency.

Description

Cutting device is used in processing of air energy water heater chassis subassembly

Technical Field

The utility model relates to an air can water heater chassis subassembly processing technology field specifically is a cutting device is used in processing of air can water heater chassis subassembly.

Background

The direction of cutting device is more single for processing of present air ability water heater chassis subassembly to can not satisfy the air and can diversely carry out different cutting by water heater chassis subassembly processing, can not satisfy the work demand and current cutting device does not have grinding machanism, thereby need polish with equipment in addition after the cutting is accomplished, thereby reduced cutting equipment's performance, wasted a large amount of time simultaneously, reduced the efficiency of work.

To sum up, the utility model discloses a design an air can water heater chassis subassembly processing and solve the problem that exists with cutting device.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an air can water heater chassis subassembly processing and use cutting device to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

the utility model provides an air energy water heater chassis subassembly processing is used cutting device, including the cutting mounting bracket, the portal frame that has welded perpendicularly on the cutting mounting bracket, be equipped with P L C controller on the lateral wall of portal frame left side, portal frame positive left side center department has X axle motor through bolted connection, the drive end of X axle motor passes through the shaft connector and connects X axle lead screw, X axle lead screw from left to right runs through X axle lead screw left side bearing housing, X axle shaft sleeve and X axle lead screw right bearing housing in proper order, X axle lead screw left side bearing housing and X axle lead screw right bearing housing respectively through bolted connection on the portal frame is positive, be provided with two sets of X axle guide bars for the axis symmetry based on X axle lead screw on the front of portal frame and be connected with two sets of X axle guide blocks corresponding respectively, X axle connection adapter sleeve and X axle guide block all pass through bolted connection on X axle mounting panel, four positive corners of X axle mounting panel all are provided with Z axle guide block that the Z axle guide bar is connected to be connected with on the Z axle lead screw passes through the motor mounting bracket and the drive end of Y axle lead screw passes through the drive end of Y axle lead screw and the drive end and the mounting bracket and the drive end of Y axle lead screw is connected with the drive end of Y axle lead screw and the mounting bracket and the drive head of the motor is connected with the drive end of Y axle lead screw is connected with the motor shaft through the drive end of Y axle lead screw and the drive head of Y axle lead screw and the mounting bracket and the drive end of Y axle lead screw is connected with the mounting panel under the mounting panel of Y axle lead screw and the drive end of Y axle lead screw is connected with the drive end of Y axle lead screw and the drive head of Y axle lead screw and the mounting panel of Y axle lead screw and the motor of Y axle lead screw and the mounting panel of the drive end of the mounting panel of the motor of the mounting panel of the mounting bracket.

Preferably, the X-axis motor, the Z-axis motor and the Y-axis motor are 86BYG250Hde positive and negative rotation stepping motors, the polishing motor is HBS57, and the X-axis motor, the Z-axis motor, the Y-axis motor, the polishing motor and the laser cutting head are respectively and electrically connected to the P L C controller through guiding.

Preferably, X axle motor, X axle lead screw left bearing housing, X axle connecting sleeve, X axle lead screw right bearing housing, two group X axle guide bars and two groups X axle guide bar corresponds respectively and is connected with two X axle guide blocks of group and becomes X axial lead screw motion, X axle lead screw is threaded connection with the connected mode of X axle connecting sleeve, X axle lead screw is connected for rotating with the connected mode of X axle lead screw left bearing housing, X axle lead screw right bearing housing respectively, the connected mode of X axle guide bar and X axle guide block is sliding connection.

Preferably, bearing housing, Z axle screw coupling sleeve and Z axle screw down bearing housing constitute Z axle screw motion on Z axle guide block, Z axle guide bar, Z axle screw, the Z axle screw set of axes constitute Z axle screw motion, Z axle guide bar sets up two sets of at Z axle guide block and be sliding connection with the connected mode of Z axle guide block for the axis symmetry based on the Z axle screw, the connected mode of Z axle screw and Z axle screw coupling sleeve is threaded connection, the Z axle screw respectively with Z axle screw set of axes on the connected mode of bearing housing and Z axle screw set of axes for rotating the connection.

Preferably, Y axle mounting panel, Y axle lead screw connecting sleeve, Y axle guide block, Y axle lead screw left side adapter sleeve, Y axle lead screw right side adapter sleeve, Y axle motor and Y axle guide bar constitute Y axial lead screw motion, the connected mode of Y axle lead screw and Y axle lead screw connecting sleeve is threaded connection, Y axle lead screw is connected for rotating with the connected mode of Y axle lead screw left side adapter sleeve, Y axle lead screw right side adapter sleeve respectively, the Y axle guide bar sets up two groups and is sliding connection with the connected mode of Y axle guide block for axis symmetry based on Y axle lead screw.

Preferably, the cutting end of the laser cutting head penetrates through the lower portion of the Z-shaped mounting plate, the driving end of the polishing motor is rotatably connected with the mounting frame of the polishing motor and the penetrating portion of the Z-shaped mounting plate respectively, and the distance between the polishing head and the bottom of the Z-shaped mounting plate is at least greater than the distance between the cutting end of the laser cutting head and the bottom of the Z-shaped mounting plate by 60-80 mm.

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

1. the utility model discloses in, through X, Z, Y axial lead screw motion structures through designing, and drive the laser cutting head according to the lead screw motion principle, the head of polishing is polished through the head of polishing immediately after cutting according to the working requirement in the X, Z, Y axial, thereby realized diversified cutting, it is more single to satisfy the direction that different working requirements have solved present air can water heater chassis subassembly processing with cutting device, thereby can not satisfy the air can the diversified cutting that carries out the difference of water heater chassis subassembly processing, can not satisfy the problem of working requirement.

2. The utility model discloses in, will polish and cut the integration through the design to improve cutting equipment's performance, practiced thrift a large amount of time, and then improved work efficiency, solved current cutting device and not had grinding machanism, thereby need polish with equipment in addition after the cutting is accomplished, thereby reduced cutting equipment's performance, wasted a large amount of time simultaneously, reduced the problem of the efficiency of work.

Drawings

FIG. 1 is a schematic view of the overall left-side view structure of the present invention;

FIG. 2 is a schematic view of a partial three-dimensional structure of the present invention;

FIG. 3 is a schematic diagram of a partial explosion structure of the present invention;

fig. 4 is a schematic diagram of the partial explosion structure of the present invention.

In the drawing, a 1-cutting mounting frame, a 2-portal frame, a 3-P L C controller, a 4-X shaft motor, a 5-X shaft screw, a 6-X shaft screw left bearing sleeve, a 7-X shaft connecting shaft sleeve, an 8-X shaft screw right bearing sleeve, a 9-X shaft guide rod, a 10-X shaft guide block, an 11-X shaft mounting plate, a 12-Z shaft guide block, a 13-Z shaft guide rod, a 14-Z type mounting plate, a 15-Z shaft motor mounting frame, a 16-Z shaft motor, a 17-Z shaft screw, an 18-Z shaft screw upper bearing sleeve, a 19-Z shaft screw connecting shaft sleeve, a 20-Z shaft screw lower bearing sleeve, a 21-laser cutting head, a 22-grinding motor mounting frame, a 23-grinding motor, a 24-grinding head, a 25-fixing shaft mounting plate, a 26-Y shaft mounting plate, a 27-Y shaft screw connecting shaft sleeve, a 28-Y shaft guide block, a 29-Y shaft guide block, a 30-Y shaft left connecting sleeve, a 31-Y shaft screw right shaft screw connecting sleeve, a 32-Y shaft guide rod and a Y shaft guide rod 33-Y shaft jig.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, rather than all embodiments, and all other embodiments obtained by a person of ordinary skill in the art without creative work belong to the protection scope of the present invention based on the embodiments of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution:

the utility model provides a cutting device is used in processing of air energy water heater chassis subassembly, including cutting mounting bracket 1, it has portal frame 2 to weld perpendicularly on cutting mounting bracket 1, be equipped with P L C controller 3 on the lateral wall of portal frame 2 left side, portal frame 2 front left side center department has X axle motor 4 through bolted connection, the drive end of X axle motor 4 passes through shaft coupling and connects X axle screw 5, X axle screw 5 from left to right runs through X axle screw left bearing cover 6 in proper order, X axle shaft coupling axle sleeve 7 and X axle screw right bearing cover 8, X axle screw left bearing cover 6, and X axle screw right bearing cover 8 respectively pass through bolted connection on portal frame 2 front, portal frame 2 front and be provided with two sets of X axle guide bar adapter sleeves 9 for the axis symmetry based on X axle screw 5, two sets of X axle guide bar 9 correspond respectively and are connected with two sets of X axle guide block 10, X axle coupling axle shaft 7 all passes through bolted connection on X axle guide block 11 with X axle guide bar 10 of corner, four front of X axle shaft coupling axle 11 all is provided with Z axle guide block 12, four front is connected with Y axle guide bar adapter sleeve 14 and is connected with the drive end of Y axle screw 21 that the drive end of Y axle screw 21 is connected with the motor 14 and is connected with the drive end of Y axle screw 21 and is connected with the motor 14 through the drive end of Y axle screw 21 and is connected with the mounting bracket 14 through the mounting bracket 14, the drive end of Y axle screw 21 is connected with the mounting bracket 14, the mounting bracket 14 is connected with the mounting bracket 14, the drive end of the motor 14 is connected with the drive end of the motor 14, the mounting bracket 14, the rear end of the motor 14, the rear end of the mounting bracket 14 is connected with the mounting bracket 14, the mounting bracket 14 is connected with the lower shaft screw 21 type mounting bracket 14, the rear mounting bracket 14 is connected with the mounting bracket 14, the lower shaft screw 21 is connected with the lower shaft screw 21 type mounting bracket 14, the lower shaft screw 14, the mounting bracket 14, the lower shaft screw 21 is connected with the lower shaft screw 14, the motor 14, the lower shaft screw 14, the motor 14, the mounting bracket 14, the lower shaft screw 21 is connected with the motor 14, the mounting bracket 14 is connected with the mounting bracket 14 motor 14, the mounting bracket.

The utility model discloses a work flow is at X axle motor 4, Z axle motor 16, Y axle motor 32, grinding motor 23 and laser cutting head 21 respectively through direction electric connection under the effect of P L C controller 3, the connected mode of X axle lead screw 5 and X axle connecting sleeve 7 is threaded connection this moment, X axle lead screw 5 respectively with X axle lead screw left bearing housing 6, the connected mode of X axle lead screw right bearing housing 8 is the rotation connection, the connected mode of X axle guide bar 9 and X axle guide block 10 is sliding connection's mechanical connection structure effect constitutes X axial lead screw motion mechanism, Z axle guide bar 13 sets up two sets of in Z axle guide block 12 and with the connected mode of Z axle guide block 12 is sliding connection for the axis symmetry based on Z axle lead screw 17, the connected mode of Z axle lead screw 17 and Z axle lead screw connecting sleeve 19 is threaded connection, Z axle lead screw 17 respectively with Z axle lead screw upper bearing cover 18 and Z axle lead screw lower bearing sleeve 20 is the mechanical connection mode of rotation connection sleeve, thereby the hot water cutting motor carries out the axial connection of Y axle lead screw and the hot water cutting head and the hot water cutting machine and the hot water cutting head carries out the hot water cutting and the hot water cutting machine and the hot water cutting machine and the hot water cutting head and the hot water cutting of the mechanical connection of the right side of the mechanical connection of the right side of the screw motion mechanism is carried out the hot water cutting of the right side of the mechanical connection of the right side of the mechanical connection of the screw motion mechanism is carried out the hot water cutting of the right side of the mechanical connection of the right side of the hot water cutting of the right side of the mechanical connection of the screw motion mechanism and.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides an air energy water heater chassis subassembly processing is with cutting device, including cutting mounting bracket (1), its characterized in that the perpendicular welding has portal frame (2) on cutting mounting bracket (1), be equipped with P L C controller (3) on portal frame (2) left side lateral wall, portal frame (2) positive left side center department has X axle motor (4) through bolted connection, X axle motor (4) the drive end passes through shaft coupling and connects X axle lead screw (5) through X axle lead screw left side bearing housing (6), X axle shaft coupling axle housing (7) and X axle lead screw right side bearing housing (8) from left to right pass through X axle lead screw left side bearing housing (6) respectively through bolted connection on portal frame (2) openly, portal frame (2) on the front and because X axle lead screw (5) connect for the axis symmetry be provided with two sets of X axle guide bars (9) on X axle guide bar (9) are connected with two sets of X axle guide bar connection through X axle lead screw right side guide bar mounting panel (14) and handle, X axle lead screw right side guide bar (11) and be connected with motor shaft guide bar (14) through X axle lead screw left side guide bar mounting panel (14) axle lead screw left side guide bar (11) and be connected with the drive end of X axle lead screw spindle mounting panel (14) and the drive end of Y axle lead screw (14) and be connected with the drive end of X axle lead screw (14) and the mounting panel (14) of X axle lead screw 21, X axle lead screw left side bearing mounting panel (6) of mounting panel (11) and right side lead screw mounting panel (11) of motor spindle mounting panel (11) and right side lead screw mounting panel (7) and be connected with the lead screw mounting panel (7) of motor (11) and the lead screw right side lead screw mounting panel (11) of X axle lead screw mounting panel (7) and the lead screw mounting panel (11) of X axle lead screw mounting panel (11) of motor (11) and be connected with the lead screw mounting panel (7) of motor (11) and X axle lead screw mounting panel (11) of X axle lead screw mounting panel (14) of X axle lead screw mounting panel (11) and X axle lead screw mounting panel (14) and be connected with the lead screw mounting panel (14) of X axle lead screw mounting panel (7) of X axle lead screw mounting panel (14) of X axle lead screw 21 and be connected with the lead screw 21 and the lead screw spindle mounting panel (21 and X axle lead screw 21 be connected with the lead screw 21 and the lead screw right side lead screw 21 of X axle lead screw 21 and the lead screw right side lead screw mounting panel (14 spindle mounting panel 13) of X axle lead screw 21 be connected with the lead screw spindle mounting panel 13) of motor spindle mounting panel (14.

2. The cutting device for machining the air energy water heater chassis assembly according to claim 1, wherein the X-axis motor (4), the Z-axis motor (16) and the Y-axis motor (32) are all 86BYG250Hde forward and reverse rotation stepping motors, the grinding motor (23) is HBS57, and the X-axis motor (4), the Z-axis motor (16), the Y-axis motor (32), the grinding motor (23) and the laser cutting head (21) are respectively and electrically connected to the P L C controller (3) through guiding.

3. The cutting device for machining the air energy water heater base plate component according to claim 1, wherein: x axle motor (4), X axle lead screw (5), X axle lead screw left bearing housing (6), X axle connecting sleeve (7), X axle lead screw right bearing housing (8), two X axle guide bar (9) and two groups X axle guide bar (9) correspond respectively and are connected with two X axle guide block (10) and constitute X axial lead screw motion, X axle lead screw (5) are threaded connection with the connected mode of X axle connecting sleeve (7), X axle lead screw (5) are connected for rotating with the connected mode of X axle lead screw left bearing housing (6), X axle lead screw right bearing housing (8) respectively, X axle guide bar (9) are sliding connection with the connected mode of X axle guide block (10).

4. The cutting device for machining the air energy water heater base plate component according to claim 1, wherein: z axle guide block (12), Z axle guide bar (13), Z type mounting panel (14), Z axle motor mounting bracket (15), Z axle motor (16), Z axle lead screw (17), bearing housing (18) on the Z axle lead screw, Z axle lead screw connection axle sleeve (19) and bearing housing (20) constitute Z axle lead screw motion under the Z axle lead screw, Z axle guide bar (13) set up two sets of at Z axle guide block (12) and be sliding connection with the connected mode of Z axle guide block (12) for axis symmetry based on Z axle lead screw (17), Z axle lead screw (17) are threaded connection with the connected mode of Z axle lead screw connection axle sleeve (19), Z axle lead screw (17) are connected for rotating with the connected mode of Z axle lead screw upper bearing housing (18) and Z axle lead screw lower bearing housing (20) respectively.

5. The cutting device for machining the air energy water heater base plate component according to claim 1, wherein: y axle mounting panel (26), Y axle lead screw connecting sleeve (27), Y axle guide block (28), Y axle lead screw (29), Y axle lead screw left side adapter sleeve (30), Y axle lead screw right side adapter sleeve (31), Y axle motor (32) and Y axle guide bar (33) constitute Y axial lead screw motion, Y axle lead screw (29) are threaded connection with the connected mode of Y axle lead screw connecting sleeve (27), Y axle lead screw (29) are connected for rotating with the connected mode of Y axle lead screw left side adapter sleeve (30), Y axle lead screw right side adapter sleeve (31) respectively, Y axle guide bar (33) are based on Y axle lead screw (29) set up two groups for axis symmetry and are sliding connection with the connected mode of Y axle guide block (28).

6. The cutting device for machining the air energy water heater base plate component according to claim 1, wherein: the cutting end of laser cutting head (21) runs through to the below of Z type mounting panel (14), the drive end of motor (23) of polishing respectively with the motor mounting bracket (22), the department of connection mode that runs through of Z type mounting panel (14) be for rotating the connection, the bottom distance of polishing head (24) distance Z type mounting panel (14) is greater than the bottom distance 60-80mm of the cutting end distance Z type mounting panel (14) of laser cutting head (21) at least.

Images