CN218659602U - Timber side opening machine - Google Patents

Abstract

The utility model provides a timber side opening machine, belongs to wood working equipment field, the utility model discloses a when solving current side opening machine and to stock shape timber long end terminal surface drilling, the easy problem that takes place to deflect of timber. Comprises a lateral pressing mechanism, an end pressing mechanism and a movable pressing mechanism; the machine frame is provided with a working table surface group, a supporting seat and a main beam, and the main beam is sequentially provided with two lateral pressing mechanisms, an end pressing mechanism and a moving pressing mechanism from left to right; the piston rods of the pressing cylinders of the lateral pressing mechanism and the movable pressing mechanism are arranged towards the working table surface group, the pressing cylinder on the front side of the end pressing mechanism is arranged towards the supporting seat, and the pressing cylinder on the rear side of the end pressing mechanism is arranged towards the working table surface group; each hold-down mechanism all has the controllability, through side direction hold-down mechanism, tip hold-down mechanism and removal hold-down mechanism, can realize pressing from both sides tightly the timber that any specification is used for processing conventional wood door and window, realizes the drilling of terminal surface and side.

Description

Timber side opening machine

Technical Field

The utility model belongs to the wood working equipment field especially relates to a timber side opening machine.

Background

The existing wood-substituting door and window is mainly made by connecting each timber component by a round bar tenon, namely, holes are respectively drilled on the butt joint surfaces of two connected timbers, and the round bar tenon stained with wood glue is respectively nailed into half of each of the two timbers, so that the two timbers are in mortise-tenon connection.

The requirement on the position precision of the tenon-and-mortise holes by the tenon-and-mortise connection of wood is high, the existing small enterprises for processing wood doors and windows still mainly rely on manual marking, clamping and drilling by bench clamps, the method is labor-consuming and time-consuming, the precision is guaranteed by manpower, and the production efficiency is low.

The side opening machine of processing tenon fourth of twelve earthly branches hole has also obtained certain development, current side opening machine mainly relies on the cylinder to press from both sides tightly timber, it processes tenon fourth of twelve earthly branches hole to bore group through the multiaxis ware, can satisfy basic processing demand, but the die clamping cylinder of current side opening machine adopts a word interval arrangement more, be fit for pressing from both sides tight longer timber and to the long side-drilling of timber, but when long pole shape timber length end face drilling, only a cylinder can compress tightly timber, lead to timber easily to take place to deflect, and do not have the positioner to timber, the face of waiting to drill of messenger's timber is difficult to guarantee the perpendicular to drill bit.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a timber lateral hole machine to when solving current lateral hole machine and to stock shape timber long end terminal surface drilling, the easy problem that takes place to deflect of timber. The utility model discloses the technical scheme who adopts as follows:

a timber side hole machine comprises a lateral pressing mechanism, an end pressing mechanism, a movable pressing mechanism, a rack and a main shaft moving mechanism;

a working table surface group and a portal frame are arranged on the rack, a plurality of positioning pins are arranged on the working table surface group in a left-right mode, a supporting seat is arranged on the front side of the rack, and the upper end face of the supporting seat is flush with the upper end face of the working table surface group; the portal frame comprises two stand columns, the two stand columns are respectively arranged at the left end and the right end of the workbench surface group, the top ends of the two stand columns are connected through a main cross beam, two lateral pressing mechanisms, an end pressing mechanism, a guide plate and a lateral pressing mechanism are sequentially arranged on the main cross beam from left to right, and a movable pressing mechanism is horizontally arranged on the guide plate in a sliding manner;

the lateral pressing mechanism comprises a first cylinder seat, a pressing cylinder is arranged on the first cylinder seat, the end pressing mechanism comprises a second cylinder seat, the two pressing cylinders are arranged on the second cylinder seat in a front-back mode, the movable pressing mechanism comprises a movable cover, and the pressing cylinder is arranged on the movable cover;

a pressure head is arranged at the end part of a piston rod of the pressing cylinder, the piston rods of the pressing cylinders of the lateral pressing mechanism and the movable pressing mechanism are arranged towards the workbench surface group, the pressing cylinder at the front side of the end pressing mechanism is arranged towards the supporting seat, and the pressing cylinder at the rear side of the end pressing mechanism is arranged towards the workbench surface group;

the machine frame is provided with a main shaft moving mechanism, the moving mechanism comprises a main shaft motor, a drill bit group is connected with the output end of the main shaft motor through a multi-axis device, and the drill bit group penetrates through the inner side of the portal frame to be arranged forwards.

The main shaft moving mechanism further comprises an X-axis moving seat and a Z-axis adjusting seat, a screw rod and an X-axis moving guide rail set are arranged on the rack in a left-right mode, a screw seat is in threaded fit with the screw rod, the screw seat is connected with the X-axis moving seat, an X-axis moving slider set is arranged on the X-axis moving seat, the X-axis moving slider set is in sliding fit with the X-axis moving guide rail set, a driven belt wheel is arranged on the screw rod, an output end of a screw rod driving motor is provided with a driving belt wheel, the driving belt wheel and the driven belt wheel are connected through a synchronous belt, a supporting block is arranged on the X-axis moving seat, a Z-axis adjusting screw rod is in threaded fit with the supporting block, two vertically-arranged guide keys are arranged on the X-axis moving seat, two vertically-arranged long holes are arranged on the Z-axis adjusting seat, the two guide keys and the two long holes are in one-to-one sliding fit, a shaft shoulder structure is arranged at the top end of the Z-axis adjusting screw rod, a driving block is arranged on the Z-axis adjusting seat, a Y-axis feeding guide rail set is in rotating fit with the T-shaped groove, and a Y-axis feeding guide rail set is arranged on the main shaft cylinder, and a piston rod cylinder is arranged on the main shaft base.

The lower end of the Z-axis adjusting screw rod is provided with a wrench clamping column.

The X-axis moving seat is vertically provided with a graduated scale, the Z-axis adjusting seat is provided with a pointer, and the pointer points to the graduated scale.

And a dust suction hopper is arranged on the Y-axis feed seat, the inlet of the dust suction hopper is upwards arranged towards the drill bit group, and the other end of the dust suction hopper is communicated with a negative pressure fan through a pipeline.

The left end and the right end of the supporting seat are respectively provided with a positioning strip, and the positioning strips are arranged in the axial direction in the front-back direction.

The rear side of the movable cover is provided with a guide sliding block, the guide sliding block slides left and right along a guide plate, and a tightening handle screw is arranged on the guide sliding block.

The inner sides of the two upright posts are respectively provided with an end face positioning plate.

The frame is provided with a drag chain, and the electric wires and the air pipes of the main shaft moving mechanism are bunched on the drag chain.

The bottom of the frame is provided with an adjustable ground foot.

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

1. each hold-down mechanism all has the controllability, through side direction hold-down mechanism, tip hold-down mechanism and removal hold-down mechanism, can realize pressing from both sides tightly the timber that any specification is used for processing conventional wood door and window, realizes the drilling of terminal surface and side.

2. The main shaft motor realizes the left-right movement, the vertical adjustment and the front-back feeding and retracting, so that the main shaft motor has the capability of processing any specification of wood for processing conventional wood doors and windows.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a schematic structural diagram of a rear side view angle of the present invention;

FIG. 3 is a schematic view of the lateral hold-down mechanism;

FIG. 4 is a schematic view of the end hold down mechanism;

FIG. 5 is a schematic view of the structure of the moving pressing mechanism;

FIG. 6 is a schematic view of the structure of the gantry;

FIG. 7 is a schematic view of the back view of the housing;

FIG. 8 is a schematic structural view of the spindle moving mechanism;

FIG. 9 is a schematic view of the spindle moving mechanism from the rear view;

fig. 10 is a schematic view of a lead screw drive.

In the figure: 1-frame, 11-worktable surface group, 12-supporting seat, 13-portal frame, 131-upright column, 132-main beam, 14-adjustable anchor, 15-end surface positioning plate, 16-positioning bar, 17-positioning pin, 2-main shaft moving mechanism, 21-X shaft moving guide rail group, 22-lead screw, 23-nut seat, 24-X shaft moving seat, 25-X shaft moving slide block group, 26-Z shaft adjusting lead screw, 27-supporting block, 28-driving block, 29-long hole, 210-guide key, 211-feed cylinder, 212-Y shaft feed seat, 213-Y shaft feed guide rail group, 214-Y shaft feed slide block group, 215-motor seat, 216-main shaft motor, 217-multi-shaft device, 218-drill head group, 219-suction bucket, 220-driven pulley, 221-driving pulley, 222-lead screw driving motor, 223-graduated scale, 224-pointer, 225-Z shaft adjusting seat, 3-lateral pressing mechanism, 31-first air cylinder seat, 32-pressing cylinder, 33-4-pressing cylinder, 4-pressing head moving guide block, 52-pressing head moving mechanism, 52-guide cylinder cover, and pressing head moving mechanism.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described below with reference to specific embodiments shown in the accompanying drawings. It should be understood that the description is intended to be illustrative only and is not intended to limit the scope of the present invention. Moreover, in the following description, descriptions of well-known structures and techniques are omitted so as to not unnecessarily obscure the concepts of the present invention.

The utility model discloses the connection that mentions divide into fixed connection and can dismantle the connection, fixed connection is for can not dismantle conventional fixed connection modes such as connection including but not limited to hem connection, rivet connection, adhesive connection and welded connection for the connection, can dismantle the connection including but not limited to conventional dismantlement modes such as bolted connection, buckle connection, pin joint and hinged joint, when not clearly prescribing a limit to concrete connection mode, the default is approved to find at least one kind connected mode in current connected mode and realize this function, and the technical staff in the art can select by oneself as required. For example: the fixed connection selects welding connection, and the detachable connection selects bolt connection.

The present invention will be described in further detail with reference to the accompanying drawings, and the following embodiments are illustrative of the present invention, and the present invention is not limited to the following embodiments.

Example (b): as shown in fig. 1-9, a timber side hole machine comprises a lateral pressing mechanism 3, an end pressing mechanism 4, a movable pressing mechanism 5, a frame 1 and a main shaft moving mechanism 2;

a working table group 11 and a portal frame 13 are arranged on the rack 1, a plurality of positioning pins 17 are arranged on the working table group 11 in a left-right manner, a supporting seat 12 is arranged on the front side of the rack 1, and the upper end face of the supporting seat 12 is flush with the upper end face of the working table group 11; the portal frame 13 comprises two upright posts 131, the two upright posts 131 are respectively arranged at the left end and the right end of the worktable panel 11, the top ends of the two upright posts 131 are connected through a main beam 132, two lateral pressing mechanisms 3, an end pressing mechanism 4, a guide plate 51 and the lateral pressing mechanisms 3 are sequentially arranged on the main beam 132 from left to right, and a movable pressing mechanism 5 is horizontally arranged on the guide plate 51 in a sliding manner;

the lateral pressing mechanism 3 comprises a first cylinder seat 31, a pressing cylinder 32 is arranged on the first cylinder seat 31, the end pressing mechanism 4 comprises a second cylinder seat 41, the two pressing cylinders 32 are arranged on the second cylinder seat 41 in a front-back manner, the movable pressing mechanism 5 comprises a movable cover 52, and the pressing cylinder 32 is arranged on the movable cover 52;

a pressure head 33 is arranged at the end part of a piston rod of the pressing cylinder 32, piston rods of the pressing cylinders 32 of the lateral pressing mechanism 3 and the movable pressing mechanism 5 are arranged towards the working table surface group 11, the pressing cylinder 32 at the front side of the end pressing mechanism 4 is arranged towards the supporting seat 12, and the pressing cylinder 32 at the rear side of the end pressing mechanism 4 is arranged towards the working table surface group 11;

a main shaft moving mechanism 2 is arranged on the machine frame 1, the moving mechanism 2 comprises a main shaft motor 216, a drill bit group 218 is connected with the output end of the main shaft motor 216 through a multi-axis device 217, and the drill bit group 218 penetrates through the inner side of the portal frame 13 and is arranged forwards.

The main shaft moving mechanism 2 further comprises an X-axis moving seat 24 and a Z-axis adjusting seat 225, a lead screw 22 and an X-axis moving guide rail group 21 are arranged on the frame 1 left and right, a screw seat 23 is in threaded fit with the lead screw 22, the screw seat 23 is connected with the X-axis moving seat 24, the X-axis moving seat 24 is provided with an X-axis moving slide block group 25, the X-axis moving slide block group 25 is in sliding fit with the X-axis moving guide rail group 21, the lead screw 22 is provided with a driven pulley 220, the output end of a lead screw driving motor 222 is provided with a driving pulley 221, the driving pulley 221 is connected with the driven pulley 220 through a synchronous belt, the X-axis moving seat 24 is provided with a supporting block 27, the Z-axis adjusting lead screw 26 is in threaded fit with the supporting block 27, the X-axis moving seat 24 is provided with two vertically arranged guide keys 210, the Z-axis adjusting seat 225 is provided with two vertically arranged long holes 29, the two guide keys 210 are in one-to-one corresponding sliding fit with the two long holes 29, a shaft shoulder structure is arranged at the top end of the Z-axis adjusting screw rod 26, a driving block 28 is arranged on a Z-axis adjusting seat 225, a T-shaped groove is formed in the driving block 28, the shaft shoulder structure is in running fit with the T-shaped groove, a Y-axis feeding guide rail set 213 is arranged on the Z-axis adjusting seat 225, a Y-axis feeding slide block set 214 is arranged on a motor seat 215, the Y-axis feeding slide block set 214 is in sliding fit with the Y-axis feeding guide rail set 213, the Y-axis feeding guide rail set 213 is arranged along the front and the back, a feeding cylinder 211 is arranged on the Y-axis feeding seat 212, a piston rod of the feeding cylinder 211 is connected with the motor seat 215, and a main shaft motor 216 is arranged on the motor seat 215.

The lower end of the Z-axis adjusting screw rod 26 is provided with a wrench clamping column.

A graduated scale 223 is vertically arranged on the X-axis moving seat 24, a pointer 224 is arranged on the Z-axis adjusting seat 225, and the pointer 224 points to the graduated scale 223.

The Y-axis tool feeding seat 212 is provided with a dust suction hopper 219, an inlet of the dust suction hopper 219 faces upward to the drill bit group 218, and the other end of the dust suction hopper 219 is communicated with a negative pressure fan through a pipeline.

The left end and the right end of the supporting seat 12 are respectively provided with a positioning strip 16, and the positioning strips 16 are arranged in the axial direction.

The rear side of the movable cover 52 is provided with a guide slide block 53, the guide slide block 53 slides left and right along the guide plate 51, and the guide slide block 53 is provided with a fastening handle screw 54.

End face positioning plates 15 are respectively arranged on the inner sides of the two upright posts 131.

The frame 1 is provided with a drag chain, and the electric wires and the air pipes of the main shaft moving mechanism 2 are bunched on the drag chain.

The bottom of the frame 1 is provided with adjustable feet 14.

Lateral pressing mechanism 3 is used for when the long side of timber is gone up and is drilled, presss from both sides tight timber, puts table surface group 11 with timber on, and the side that timber was waited to process supports with a plurality of locating pins 17 respectively and supports and lean on, and the left end terminal surface of timber supports with the terminal surface locating plate 15 of frame 1 and supports and lean on, and control lateral pressing mechanism 3's compressing tightly cylinder 32 compresses tightly timber, can drill to the timber side.

Tip hold-down mechanism 4 is used for pressing from both sides tight timber when the length of timber is to the terminal surface up-hole, puts supporting seat 12 with timber on, and the length of timber is to the locating pin 17 on terminal surface and the table surface group 11 and to leaning on, and the length of timber is to the side and the terminal surface location strip 16 and to leaning on spacingly, and the cylinder 32 that compresses tightly of control tip hold-down mechanism 4 compresses tightly timber, can drill to the terminal surface to the length of timber.

When the movable pressing mechanism 5 is used for drilling holes on the long side of shorter wood, the wood is clamped, if the wood is too short, the lateral pressing mechanism 3 at the right end of the main cross beam 132 can not fix the wood, the handle of the movable cover 52 is held by hand to slide along the guide plate 51, when the wood is moved to the position needing to be pressed, the fixed handle screw 54 is pulled tightly, and the movable cover 52 is locked on the guide plate 51 by the fixed handle screw 54. Each pressing mechanism has adjustability, and can clamp timber of any specification for processing conventional wood doors and windows through the lateral pressing mechanism 3, the end pressing mechanism 4 and the movable pressing mechanism 5, so that the end face and the side face are drilled.

Because the X-axis moving slide block set 25 is in sliding fit with the X-axis moving guide rail set 21, the screw seat 23 is in threaded fit with the lead screw 22, the screw seat 23 is connected with the X-axis moving seat 24, the lead screw driving motor 222 drives the lead screw 22 to rotate through a belt wheel, so that the X-axis moving seat 24 moves along the lead screw 22, the Z-axis adjusting seat 225 and the X-axis moving seat 24 are in vertical sliding fit with the long hole 29 through the guide key 210 and can adjust the vertical relative position through the Z-axis adjusting lead screw 26 and the supporting block 27, the Z-axis adjusting seat 225 and the Y-axis feeding seat 212 are in front-back sliding fit with the Y-axis feeding guide rail set 213 through the Y-axis feeding slide block set 214, and the feeding cylinder 211 controls the feeding and retracting of the drill head set 218, so far, the left-right direction movement, adjustment in the vertical direction and feeding and retracting in the front-back direction are realized by the main shaft motor 216, so that the main shaft motor 216 has the capability of processing any specification of timber for processing conventional wood doors and windows.

The working process is as follows: a power switch is arranged on a frame 1, the specification and the hole size of wood to be drilled are input on a screen, a spindle motor 216 is rotated to start and stop a knob to a starting position, the spindle motor 216 on a spindle moving mechanism 2 rotates to drive a drill bit on a drill bit group 218 to rotate at a high speed, the wood is placed at a specified positioning point according to the drilling position, a pressing button on the screen is pressed, a corresponding pressing cylinder is started according to requirements to press the wood, a processing starting button is pressed, a lead screw driving motor 222 is started and transmits power to a lead screw 22 through a belt, a nut seat 23 on the lead screw 22 drives the spindle moving mechanism 2 to move to the specified position, a cutter feeding cylinder 211 on the spindle moving mechanism 2 pushes a motor seat 215 forwards through a connecting piece to enable the drill bit group 218 to complete drilling work, the lead screw driving motor 222 transmits the power to the lead screw 22 through the belt, and the nut seat 23 drives the spindle moving mechanism 2 to move to the starting position.

The above embodiments are merely illustrative of the present patent and do not limit the scope of the patent, and those skilled in the art can make modifications to the parts thereof without departing from the spirit and scope of the patent.

Claims (10)

1. The utility model provides a timber side opening machine which characterized in that: comprises a lateral pressing mechanism (3), an end pressing mechanism (4), a movable pressing mechanism (5), a frame (1) and a main shaft moving mechanism (2);

a working table surface group (11) and a portal frame (13) are arranged on the rack (1), a plurality of positioning pins (17) are arranged on the working table surface group (11) in a left-right manner, a supporting seat (12) is arranged on the front side of the rack (1), and the upper end surface of the supporting seat (12) is flush with the upper end surface of the working table surface group (11); the portal frame (13) comprises two upright columns (131), the two upright columns (131) are respectively arranged at the left end and the right end of the worktable surface group (11), the top ends of the two upright columns (131) are connected through a main beam (132), the main beam (132) is sequentially provided with two lateral pressing mechanisms (3), an end pressing mechanism (4), a guide plate (51) and the lateral pressing mechanisms (3) from left to right, and the guide plate (51) is horizontally provided with a movable pressing mechanism (5) in a sliding manner;

the lateral pressing mechanism (3) comprises a first cylinder seat (31), a pressing cylinder (32) is arranged on the first cylinder seat (31), the end pressing mechanism (4) comprises a second cylinder seat (41), the two pressing cylinders (32) are arranged on the second cylinder seat (41) in a front-back manner, the movable pressing mechanism (5) comprises a movable cover (52), and the pressing cylinder (32) is arranged on the movable cover (52);

a pressure head (33) is arranged at the end part of a piston rod of the pressing cylinder (32), piston rods of the pressing cylinder (32) of the lateral pressing mechanism (3) and the moving pressing mechanism (5) are arranged towards the working table top group (11), the pressing cylinder (32) at the front side of the end pressing mechanism (4) is arranged towards the supporting seat (12), and the pressing cylinder (32) at the rear side of the end pressing mechanism (4) is arranged towards the working table top group (11);

a main shaft moving mechanism (2) is arranged on the machine frame (1), the moving mechanism (2) comprises a main shaft motor (216), a drill bit group (218) is connected with the output end of the main shaft motor (216) through a multi-shaft device (217), and the drill bit group (218) penetrates through the inner side of the portal frame (13) to be arranged forwards.

2. A timber side hole machine as claimed in claim 1 wherein: the main shaft moving mechanism (2) further comprises an X-axis moving seat (24) and a Z-axis adjusting seat (225), a lead screw (22) and an X-axis moving guide rail group (21) are arranged on the rack (1) in a left-right mode, a screw seat (23) is in threaded fit with the lead screw (22), the screw seat (23) is connected with the X-axis moving seat (24), an X-axis moving sliding block group (25) is arranged on the X-axis moving seat (24), the X-axis moving sliding block group (25) is in sliding fit with the X-axis moving guide rail group (21), a driven belt wheel (220) is arranged on the lead screw (22), an output end of a lead screw driving motor (222) is provided with a driving belt wheel (221), the driving belt wheel (221) and the driven belt wheel (220) are connected through a synchronous belt, a supporting block (27) is arranged on the X-axis moving seat (24), the Z-axis adjusting seat (26) is in threaded fit with the X-axis moving seat (27), two vertically arranged guide keys (210) are arranged on the X-axis moving seat (24), two vertically arranged long holes (29) are arranged on the Z-axis adjusting seat (225), a T-axis adjusting block structure is arranged on the Z-axis adjusting seat, and a T-axis adjusting block structure is arranged on the lead screw (28), be equipped with Y axle feed guide rail group (213) on Z axle regulation seat (225), be equipped with Y axle feed slider group (214) on motor cabinet (215), Y axle feed slider group (214) and Y axle feed guide rail group (213) sliding fit, Y axle feed guide rail group (213) set up along the front and back, be equipped with feed cylinder (211) on Y axle feed seat (212), the piston rod of feed cylinder (211) links to each other with motor cabinet (215), main shaft motor (216) set up on motor cabinet (215).

3. A timber side hole machine as claimed in claim 2 wherein: the lower end of the Z-axis adjusting screw rod (26) is provided with a wrench clamping column.

4. A timber side hole machine as claimed in claim 2 wherein: the X-axis moving seat (24) is vertically provided with a graduated scale (223), the Z-axis adjusting seat (225) is provided with a pointer (224), and the pointer (224) points to the graduated scale (223).

5. A timber side hole machine as claimed in claim 2 wherein: a dust suction hopper (219) is arranged on the Y-axis feed seat (212), the inlet of the dust suction hopper (219) is arranged upwards towards the drill bit group (218), and the other end of the dust suction hopper (219) is communicated with a negative pressure fan through a pipeline.

6. A timber side hole machine as claimed in claim 1 wherein: the left end and the right end of the supporting seat (12) are respectively provided with a positioning strip (16), and the positioning strips (16) are arranged in the axial direction in the front-back direction.

7. A timber side hole machine as claimed in claim 1 wherein: the rear side of the movable cover (52) is provided with a guide sliding block (53), the guide sliding block (53) slides left and right along the guide plate (51), and the guide sliding block (53) is provided with a tightening handle screw (54).

8. A timber side hole machine as claimed in claim 1 wherein: end face positioning plates (15) are respectively arranged on the inner sides of the two upright posts (131).

9. A timber side hole machine as claimed in claim 1 wherein: the frame (1) is provided with a drag chain, and the electric wires and the air pipes of the main shaft moving mechanism (2) are bunched on the drag chain.

10. A timber side hole machine as claimed in any one of claims 1 to 9, wherein: the bottom of the frame (1) is provided with an adjustable ground foot (14).

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