CN218699772U - Ancient building tenon fourth of twelve earthly branches machine with automatic feed mechanism - Google Patents

Abstract

The utility model discloses an ancient building tenon fourth of twelve earthly branches machine with automatic feed mechanism, including tenon fourth of twelve earthly branches frame, one side fixed mounting on tenon fourth of twelve earthly branches frame top has a tenon mechanism, and the opposite side fixed mounting on tenon fourth of twelve earthly branches frame top has a fourth of twelve earthly branches mechanism, and the inside fixed mounting of tenon fourth of twelve earthly branches frame has a plurality of conveying mechanism, the utility model relates to an ancient building tenon fourth of twelve earthly branches machine with automatic feed mechanism, through setting up pushing equipment and weight inductive switch, whether weight inductive switch places the work piece on the material pushing platform and carry out real-time detection, the sliding block takes place to slide along the lead screw that rotates, and the material pushing frame carries out the synchronous slip along with the sliding block, and the push pedal on the material pushing frame promotes the work piece from one side, has reduced the work load of work piece tenon fourth of twelve earthly branches processing; through setting up air feed mechanism and conveying mechanism, the air pump passes through pipeline with gas transport to support the gas board in, support the gas board with gaseous even blowout to being located its top work piece surface adhesion impurity clear up, reduce staff's clearance volume.

Description

Ancient building tenon fourth of twelve earthly branches machine with automatic feed mechanism

Technical Field

The utility model relates to an ancient building tenon fourth of twelve earthly branches machine technical field specifically is an ancient building tenon fourth of twelve earthly branches machine with automatic feed mechanism.

Background

The ancient tenon-and-mortise building machine is mainly used for splicing cabinets, wooden doors and door frames and joggling, two cutters are arranged on the ancient tenon-and-mortise building machine and are respectively a tenon cutter and a slot milling cutter, a workpiece is directly placed on the machine during machining, the two cutters are respectively used for milling to form tenons and tenon-and-mortise joints, and then the tenon-and-mortise building machine is spliced together.

However, the traditional ancient mortise and tenon machine has the following disadvantages:

(1) When a traditional ancient mortise and tenon machine carries out mortise and tenon machining on a workpiece, the workpiece is usually pushed to slide along a machining table of the ancient mortise and tenon machine manually, so that the labor amount of mortise and tenon machining of the workpiece is increased;

(2) Traditional ancient building tenon fourth of twelve earthly branches machine carries out the tenon fourth of twelve earthly branches processing back to the work piece, and the direct adhesion of waste material has increased staff's clearance volume on the work piece surface.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an ancient tenon fourth of twelve earthly branches machine with automatic feed mechanism to solve the problem that when traditional ancient tenon fourth of twelve earthly branches machine provided in the above background art carries out tenon fourth of twelve earthly branches processing to the work piece, usually the work piece is pushed by the manual work to slide along the processing table of the ancient tenon fourth of twelve earthly branches machine, thereby increasing the labor intensity of the work piece tenon fourth of twelve earthly branches processing; traditional ancient building tenon fourth of twelve earthly branches machine carries out the tenon fourth of twelve earthly branches processing back to the work piece, and the waste material directly adheres on the work piece surface, has increased the problem of staff's clearance volume.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides an ancient building tenon fourth of twelve earthly branches machine with automatic feed mechanism, includes the tenon fourth of twelve earthly branches frame, one side fixed mounting on tenon fourth of twelve earthly branches frame top has tenon spare mechanism, the opposite side fixed mounting on tenon fourth of twelve earthly branches frame top has fourth of twelve earthly branches spare mechanism, the inside fixed mounting of tenon fourth of twelve earthly branches frame has a plurality of conveying mechanism, one side fixed mounting of tenon fourth of twelve earthly branches frame has air feed mechanism, the opposite side fixed mounting of tenon fourth of twelve earthly branches frame has pushing equipment, a plurality of conveying mechanism all includes supporting gas plate, a plurality of pulley and a plurality of installation axle, pushing equipment is including pushing away material platform, lead screw, sliding block, servo motor, push away material frame, two push pedals, direction axle and two auto-lock telescopic links, the fixed surface of pushing away material platform installs weight inductive switch, and weight inductive switch-up is in real-time to pushing away the material bench weight of placing after the work piece, and the weight of pushing away material platform increases, servo motor's circuit switch-on.

Preferably, a sliding groove is formed in the top end of the material pushing platform, a lead screw is connected to the inside of the sliding groove in a rotating mode, a sliding block in sliding connection with the sliding groove is connected to the middle of the lead screw in a threaded mode, a material pushing frame is fixedly mounted at the top end of the sliding block, a direction shaft is connected to the inside of the material pushing frame in a rotating mode, self-locking telescopic rods are fixedly mounted on two sides of the direction shaft, a push plate is fixedly mounted at the moving ends of the self-locking telescopic rods, a servo motor is fixedly mounted on one side of the material pushing platform, the output end of the servo motor penetrates through the material pushing platform and is fixedly connected with one end, adjacent to the lead screw, of the material pushing frame, one side, away from the servo motor, is fixedly connected with the mortise and tenon frame, the servo motor is started after being powered on, the lead screw is driven to rotate by the servo motor, threads on the surface of the lead screw are matched with threads on the inner wall of the sliding block, the sliding block is limited by the sliding groove, the sliding block in shape, the sliding block slides along the lead screw, the sliding block drives the material pushing frame to perform synchronous motion, the push plate to contact with the workpiece, the push plate is pushed from one side of the workpiece, the worker loosens the fixed end of the self-locking telescopic rod, and pushes the self-locking telescopic rod, the fixed end of the self-locking telescopic rod, and pushes the self-locking telescopic rod.

Preferably, the equal fixed mounting in both sides of supporting the gas board has a plurality of installation axle, a plurality of the installation axle is kept away from one side of supporting the gas board and is all rotated and install the pulley, a plurality of the both ends of supporting the gas board all with mortise and tenon frame fixed connection, work piece and pulley contact, when pushing equipment promoted the work piece from one side, the work piece received the driving force and takes place to slide along the pulley.

Preferably, the air supply mechanism comprises an air supply table, an air pump, an air inlet pipeline with a filter screen and a plurality of conveying pipelines, the air pump is fixedly mounted at the top end of the air supply table, the air inlet of the air pump is fixedly communicated with the air inlet pipeline with the filter screen, the air outlet of the air pump is fixedly communicated with the plurality of conveying pipelines, the air pump is started after being electrified, the air pump extracts gas in the external environment through the air inlet pipeline with the filter screen, the filter screen in the air inlet pipeline with the filter screen intercepts gas impurities, the conveying pipelines convey purified gas into the supporting gas plate, and the supporting gas plate uniformly sprays the gas to clean the impurities adhered to the surface of the workpiece above the supporting gas plate.

Preferably, a plurality of one end of the conveying pipeline far away from the air pump penetrates through the mortise and tenon stand to be fixedly communicated with one side of the mortise and tenon stand adjacent to the plurality of supporting air plates, one side of the air supply table is fixedly connected with the mortise and tenon stand, and the air supply mechanism is installed on the mortise and tenon stand through the air supply table.

Preferably, the tenon mechanism comprises a first lifting cylinder, a cutter seat and a tenon cutter, the movable end of the first lifting cylinder is fixedly provided with the cutter seat, the bottom end of the cutter seat is fixedly provided with the tenon cutter, the middle part of the first lifting cylinder is fixedly connected with the tenon-and-mortise rack, an electromagnetic valve on the first lifting cylinder is opened, compressed air is input into the first lifting cylinder, a pushing piston does reciprocating motion in a cylinder of the first lifting cylinder, the first lifting cylinder does telescopic motion, the first lifting cylinder pushes the cutter seat from the top to adjust the height of the tenon cutter, so that the tenon cutter is in contact with a workpiece, and the tenon cutter performs mortise opening processing on the workpiece.

Preferably, the mortise mechanism comprises a second lifting cylinder, a mounting plate, a motor box, a mortise knife and a rotating motor, wherein the mounting plate is fixedly mounted at the movable end of the second lifting cylinder, the motor box is fixedly mounted at the bottom end of the mounting plate, the rotating motor is fixedly mounted inside the motor box, the output end of the rotating motor penetrates through the motor box and is fixedly mounted with the mortise knife, the middle part of the second lifting cylinder is fixedly connected with the mortise and tenon frame, a solenoid valve on the second lifting cylinder is opened, compressed air is input into the second lifting cylinder, a pushing piston reciprocates in a cylinder of the second lifting cylinder, the second lifting cylinder performs telescopic motion, the second lifting cylinder pushes downwards from the top of the mounting plate to adjust the height of the mortise knife, so that the mortise knife is contacted with a workpiece, the rotating motor is started after being electrified, the rotating motor drives the mortise knife to rotate, and the mortise knife processes a hole on the workpiece.

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

1. by arranging the material pushing mechanism and the weight sensing switch, the weight sensing switch detects whether a workpiece is placed on the material pushing table in real time, the sliding block slides along the rotating lead screw, the material pushing frame synchronously slides along with the sliding block, and the push plate on the material pushing frame pushes the workpiece from one side, so that the labor amount of tenon and mortise machining of the workpiece is reduced;

2. through setting up air feed mechanism and conveying mechanism, the air pump passes through pipeline with gas transport to support the gas board in, support the gas board with gaseous even blowout to being located its top work piece surface adhesion impurity clear up, reduce staff's clearance volume.

Drawings

Fig. 1 is a side view of the present invention;

FIG. 2 is a schematic structural view of the present invention;

FIG. 3 is a connection diagram of the air supply mechanism and the conveying mechanism of the present invention;

fig. 4 is a side view of the feeding mechanism of the present invention.

In the figure: 1. a mortise and tenon machine frame; 2. an air supply mechanism; 21. an air supply table; 22. an air pump; 23. an air inlet pipeline with a filter screen; 24. a delivery conduit; 3. a conveying mechanism; 31. supporting the gas panel; 32. a pulley; 33. installing a shaft; 4. a tenon mechanism; 41. a first lifting cylinder; 42. a tool holder; 43. a tenon cutter; 5. a mortise mechanism; 51. a second lifting cylinder; 52. mounting a plate; 53. a motor case; 54. a mortise knife; 55. a rotating electric machine; 6. a material pushing mechanism; 61. a material pushing table; 62. a sliding groove; 63. a screw rod; 64. a sliding block; 65. a servo motor; 66. a material pushing frame; 67. pushing the plate; 68. a direction axis; 69. a self-locking telescopic rod; 7. a weight sensing switch.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Please refer to fig. 1-4, the utility model provides an ancient building tenon fourth of twelve earthly branches machine with automatic feed mechanism, including tenon fourth of twelve earthly branches frame 1, one side fixed mounting on tenon fourth of twelve earthly branches frame 1 top has tenon mechanism 4, the opposite side fixed mounting on tenon fourth of twelve earthly branches frame 1 top has fourth of twelve earthly branches mechanism 5, the inside fixed mounting of tenon fourth of twelve earthly branches frame 1 has a plurality of conveying mechanism 3, one side fixed mounting of tenon fourth of twelve earthly branches frame 1 has air feed mechanism 2, the opposite side fixed mounting of tenon fourth of twelve earthly branches frame 1 has pushing equipment 6, a plurality of conveying mechanism 3 all includes support gas plate 31, a plurality of pulley 32 and a plurality of installation axle 33, pushing equipment 6 includes material platform 61, lead screw 63, slide block 64, servo motor 65, material pushing frame 66, two push pedal 67, direction axle 68 and two auto-lock telescopic links 69, the fixed surface of material platform 61 installs weight inductive switch 7, weight inductive switch 7 responds to the weight on pushing material platform 61 in real time, after pushing the work piece of placing on material platform 61, the weight of material platform 61 increases, servo motor 65's circuit switch-on.

A sliding groove 62 is formed at the top end of the material pushing table 61, a screw 63 is rotatably connected inside the sliding groove 62, a sliding block 64 in sliding connection with the sliding groove 62 is connected to the middle of the screw 63 through a thread, a material pushing frame 66 is fixedly installed at the top end of the sliding block 64, a direction shaft 68 is rotatably connected inside the material pushing frame 66, self-locking telescopic rods 69 are fixedly installed on both sides of the direction shaft 68, push plates 67 are fixedly installed at the movable ends of the two self-locking telescopic rods 69, a servo motor 65 is fixedly installed on one side of the material pushing table 61, the output end of the servo motor 65 penetrates through the material pushing table 61 and is fixedly connected with the end adjacent to the screw 63, one side of the material pushing table 61 away from the servo motor 65 is fixedly connected with the mortise and tenon machine frame 1, the servo motor 65 is started after being electrified, and the servo motor 65 drives the screw 63 to rotate, the screw thread on the surface of the screw rod 63 is matched with the screw thread on the inner wall of the sliding block 64, the sliding block 64 is limited by the sliding groove 62 matched with the sliding block in shape and size, the sliding block 64 slides along the screw rod 63, the sliding block 64 drives the material pushing frame 66 to synchronously move in the sliding process, the push plate 67 on the material pushing frame 66 is in contact with a workpiece, the push plate 67 is pushed from one side of the workpiece, before the worker starts the material pushing mechanism 6, the worker loosens the fixation of the self-locking telescopic rod 69, the worker pulls the movable end of the self-locking telescopic rod 69 by using hands, so that the movable end of the self-locking telescopic rod 69 slides along the fixed end of the self-locking telescopic rod 69, the length of the self-locking telescopic rod 69 is changed, the self-locking telescopic rod 69 pushes the push plate 67 from one side, and the initial position of the push plate 67 is adjusted.

The equal fixed mounting in both sides of supporting gas board 31 has a plurality of installation axle 33, and the one side that supporting gas board 31 was kept away from to a plurality of installation axle 33 all rotates and installs pulley 32, and a plurality of supports the both ends of gas board 31 all with mortise and tenon frame 1 fixed connection, work piece and pulley 32 contact, and when pushing equipment 6 promoted the work piece from one side, the work piece received the driving force and takes place to slide along pulley 32.

Air feed mechanism 2 includes air supply platform 21, air pump 22, take filter screen admission line 23 and a plurality of pipeline 24, the top fixed mounting of air supply platform 21 has air pump 22, the fixed intercommunication of air inlet of air pump 22 has and takes filter screen admission line 23, the fixed intercommunication of gas outlet of air pump 22 has a plurality of pipeline 24, start after the air pump 22 circular telegram, air pump 22 is through taking the gas in the outer environment of filter screen admission line 23 extraction, take filter screen 23 internal filter screen to intercept gaseous impurity in the filter screen admission line, pipeline 24 will purify gaseous transport to support gas plate 31 in, support gas plate 31 will gaseous even blowout, the impurity to support gas plate 31 top workpiece surface adhesion is cleared up.

One end of each of the plurality of conveying pipelines 24, which is far away from the air pump 22, penetrates through the mortise and tenon frame 1 and is fixedly communicated with one side of each of the plurality of support air plates 31, one side of the air supply table 21 is fixedly connected with the mortise and tenon frame 1, and the air supply mechanism 2 is installed on the mortise and tenon frame 1 through the air supply table 21.

Tenon spare mechanism 4 includes first lift cylinder 41, tool holder 42 and tenon sword 43, the expansion end fixed mounting of first lift cylinder 41 has tool holder 42, tool holder 42's bottom fixed mounting has tenon sword 43, the middle part and the 1 fixed connection in tenon fourth of the twelve earthly branches frame of first lift cylinder 41, the solenoid valve is opened on the first lift cylinder 41, input compressed air in the first lift cylinder 41, it is reciprocating motion in 41 section of thick bamboo of first lift cylinder to promote the piston, first lift cylinder 41 carries out concertina movement, first lift cylinder 41 promotes tool holder 42 from the top and adjusts tenon sword 43's height, make tenon sword 43 and work piece contact, tenon sword 43 carries out the mortise opening processing to the work piece.

The mortise work piece mechanism 5 comprises a second lifting cylinder 51, a mounting plate 52, a motor box 53, a mortise knife 54 and a rotating motor 55, the mounting plate 52 is fixedly mounted at the movable end of the second lifting cylinder 51, the motor box 53 is fixedly mounted at the bottom end of the mounting plate 52, the rotating motor 55 is fixedly mounted inside the motor box 53, the output end of the rotating motor 55 penetrates through the motor box 53 and is fixedly mounted with the mortise knife 54, the middle part of the second lifting cylinder 51 is fixedly connected with the mortise work frame 1, an electromagnetic valve on the second lifting cylinder 51 is opened, compressed air is input into the second lifting cylinder 51, a pushing piston reciprocates in the cylinder of the second lifting cylinder 51, the second lifting cylinder 51 performs telescopic motion, the second lifting cylinder 51 pushes downwards from the top of the mounting plate 52 to adjust the height of the mortise knife 54, the mortise knife 54 is in contact with a work piece, the rotating motor 55 is started after being electrified, the mortise knife 55 drives the mortise knife 54 to rotate, and the mortise knife 54 processes a mortise hole on the work piece.

When the embodiment of the application is used: the weight sensing switch 7 senses the weight on the material pushing platform 61 in real time, when a workpiece is placed on the material pushing platform 61, the weight of the material pushing platform 61 is increased, a circuit of the servo motor 65 is connected, the servo motor 65 is started after being electrified, the servo motor 65 drives the screw rod 63 to rotate, threads on the surface of the screw rod 63 are matched with threads on the inner wall of the sliding block 64, the sliding block 64 is limited by the sliding groove 62 matched with the sliding block in shape and size, so that the sliding block 64 slides along the screw rod 63, the sliding block 64 drives the material pushing frame 66 to synchronously move in the sliding process, a push plate 67 on the material pushing frame 66 is in contact with the workpiece, the push plate 67 is pushed from one side of the workpiece, before the worker starts the material pushing mechanism 6, the worker loosens the fixation of the self-locking telescopic rod 69, the worker pulls the movable end of the self locking telescopic rod 69 with the hand, so that the movable end of the self locking telescopic rod 69 slides along the fixed end of the self locking telescopic rod 69, the length of the self-locking telescopic rod 69 is changed, the self-locking telescopic rod 69 pushes the push plate 67 from one side to adjust the initial position of the push plate 67, a workpiece is contacted with the pulley 32, when the pushing mechanism 6 pushes the workpiece from one side, the workpiece slides along the pulley 32 under the action of a pushing force, the electromagnetic valve on the first lifting cylinder 41 is opened, compressed air is input into the first lifting cylinder 41 to push the piston to do reciprocating motion in the cylinder of the first lifting cylinder 41, the first lifting cylinder 41 does telescopic motion, the first lifting cylinder 41 pushes the cutter seat 42 from the top to adjust the height of the tenon cutter 43, so that the tenon cutter 43 is contacted with the workpiece, the tenon cutter 43 performs mortise opening processing on the workpiece, the electromagnetic valve on the second lifting cylinder 51 is opened to input compressed air into the second lifting cylinder 51 to push the piston to do reciprocating motion in the cylinder of the second lifting cylinder 51, second lift cylinder 51 carries out concertina movement, second lift cylinder 51 promotes downwards from the top of mounting panel 52, highly adjust sword 54 for the fourth of the twelve earthly branches, make sword 54 and the work piece contact of making the twelve earthly branches, rotating electrical machines 55 starts after the circular telegram, rotating electrical machines 55 drives sword 54 and rotates for the fourth of the twelve earthly branches, sword 54 is to work piece fourth of the twelve earthly branches hole processing, air pump 22 starts after the circular telegram, air pump 22 is through taking the gas in the outer environment of filter screen admission line 23 extraction, take filter screen to intercept gaseous impurity in the filter screen admission line 23, pipeline 24 will purify in gaseous transport to supporting gas plate 31, supporting gas plate 31 evenly spouts gas, the impurity of work piece surface adhesion above supporting gas plate 31 clears up.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (7)

1. The utility model provides an ancient building tenon fourth of twelve earthly branches machine with automatic feed mechanism, includes tenon fourth of twelve earthly branches frame (1), its characterized in that: one side fixed mounting on tenon fourth of twelve earthly branches frame (1) top has tenon spare mechanism (4), the opposite side fixed mounting on tenon fourth of twelve earthly branches frame (1) top has mortise spare mechanism (5), the inside fixed mounting of tenon fourth of twelve earthly branches frame (1) has a plurality of conveying mechanism (3), one side fixed mounting of tenon fourth of twelve earthly branches frame (1) has air feed mechanism (2), the opposite side fixed mounting of tenon fourth of twelve earthly branches frame (1) has pushing equipment (6), a plurality of conveying mechanism (3) all include support gas plate (31), a plurality of pulley (32) and a plurality of installation axle (33), pushing equipment (6) are including pushing away material platform (61), lead screw (63), sliding block (64), servo motor (65), push away material frame (66), two push pedal (67), direction axle (68) and two auto-lock telescopic links (69), the fixed surface that pushes away material platform (61) installs weight inductive switch (7).

2. The ancient building mortise and tenon machine with the automatic feeding mechanism according to claim 1, characterized in that: the material pushing device is characterized in that a sliding groove (62) is formed in the top end of the material pushing table (61), a lead screw (63) is connected to the inside of the sliding groove (62) in a rotating mode, a sliding block (64) in sliding connection with the middle of the lead screw (63) is in threaded connection, a material pushing frame (66) is fixedly mounted on the top end of the sliding block (64), a direction shaft (68) is connected to the inside of the material pushing frame (66) in a rotating mode, self-locking telescopic rods (69) are fixedly mounted on two sides of the direction shaft (68), a push plate (67) is fixedly mounted on the movable end of each self-locking telescopic rod (69), a servo motor (65) is fixedly mounted on one side of the material pushing table (61), the output end of each servo motor (65) penetrates through one end fixed connection, adjacent to the lead screw (63), of one side, far away from the servo motor (65), of the material pushing table (61), and a tenon-mortise frame (1) are fixedly connected.

3. The ancient building mortise and tenon machine with the automatic feeding mechanism according to claim 1, characterized in that: the equal fixed mounting in both sides of supporting gas board (31) has a plurality of installation axle (33), a plurality of install axle (33) and keep away from one side of supporting gas board (31) and all rotate and install pulley (32), a plurality of the both ends of supporting gas board (31) all with tenon fourth of the twelve earthly branches frame (1) fixed connection.

4. The ancient building mortise and tenon machine with the automatic feeding mechanism according to claim 1, characterized in that: air feed mechanism (2) include air supply platform (21), air pump (22), take filter screen admission line (23) and a plurality of pipeline (24), the top fixed mounting of air supply platform (21) has air pump (22), the fixed intercommunication of air inlet of air pump (22) has and takes filter screen admission line (23), the fixed intercommunication of gas outlet of air pump (22) has a plurality of pipeline (24).

5. The ancient building mortise and tenon machine with the automatic feeding mechanism according to claim 4, characterized in that: one end, far away from the air pump (22), of the conveying pipeline (24) penetrates through the mortise and tenon frame (1) to be fixedly communicated with one side, adjacent to the plurality of supporting air plates (31), of the mortise and tenon frame, and one side of the air supply table (21) is fixedly connected with the mortise and tenon frame (1).

6. The ancient building mortise and tenon machine with the automatic feeding mechanism according to claim 1, characterized in that: tenon spare mechanism (4) include first lift cylinder (41), tool holder (42) and tenon sword (43), the expansion end fixed mounting of first lift cylinder (41) has tool holder (42), the bottom fixed mounting of tool holder (42) has tenon sword (43), the middle part and the tenon fourth of the twelve earthly branches frame (1) fixed connection of first lift cylinder (41).

7. The ancient building mortise and tenon machine with the automatic feeding mechanism according to claim 1, characterized in that: fourth of twelve earthly branches mechanism (5) include second lift cylinder (51), mounting panel (52), motor case (53), fourth of twelve earthly branches sword (54) and rotating electrical machines (55), the expansion end fixed mounting of second lift cylinder (51) has mounting panel (52), the bottom fixed mounting of mounting panel (52) has motor case (53), the inside fixed mounting of motor case (53) has rotating electrical machines (55), the output of rotating electrical machines (55) passes motor case (53) fixed mounting and has fourth of twelve earthly branches sword (54), the middle part and the fourth of twelve earthly branches frame (1) fixed connection of second lift cylinder (51).

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