CN210880075U - Control device for adjusting hinge groove machining position - Google Patents

Abstract

The utility model relates to a controlling means for adjusting hinge groove processing position, include: the door leaf lock hinge hole groove processing machine body is provided with a machine table; the guide mechanisms are arranged on the machine table in parallel; the transmission mechanism is arranged on the machine table; the first hinge groove machining mechanism is arranged at one end of the plurality of guide mechanisms and is connected with the transmission mechanism, and the first hinge groove machining mechanism can be driven by the transmission mechanism to slide along the length direction of the plurality of guide mechanisms to adjust the machining position of the first hinge groove machining mechanism; and the second hinge groove processing mechanism is arranged on the plurality of guide mechanisms and is adjacent to the first hinge groove processing mechanism, the second hinge groove processing mechanism can slide along the length directions of the plurality of guide mechanisms, and the second hinge groove processing mechanism is also provided with a locking mechanism which is used for locking the second hinge groove processing mechanism and is fixed relative to the guide mechanisms. The utility model discloses whole adjustment process is by numerical control, and it is fast to have the regulation speed, advantage that workman low in labor strength.

Description

Control device for adjusting hinge groove machining position

Technical Field

The utility model relates to a door leaf lock hinge hole groove processing machine especially relates to a controlling means for adjusting hinge groove processing position.

Background

The door leaf lock hinge hole groove processing machine is a very important device in wood working machinery, and is mainly used for processing wooden doors, door frames, window leaf grooves, door locks, door lock steps and door lock hinges at one time; the method is used for milling and drilling the slotted hole in the shapes of the lock hole on the side surface of the wooden door plane and can also be used for slotting and drilling the wooden furniture; the processing and manufacturing requirements of the door lock groove and the hinge are conveniently and accurately controlled.

Since a plurality of hinge grooves, such as door leaves, are generally required to be formed in the workpiece to be machined, in order to increase machining efficiency, a plurality of hinge groove machining tools are generally arranged on the door leaf lock hinge hole groove machining machine in the prior art, and a plurality of hinge grooves are machined in the workpiece to be machined simultaneously, so that machining time is reduced.

In the process of implementing the present invention, the inventor finds that the prior art has at least the following problems:

a plurality of hinge slot processing cutters on a door leaf lock hinge hole slot processing machine in the prior art are arranged on a machine table through a guide mechanism, and different customers have different requirements on the distance between the hinge slots.

SUMMERY OF THE UTILITY MODEL

For the technical problem who exists among the above-mentioned prior art of solving, the embodiment of the utility model provides a controlling means for adjusting hinge slot processing position. The specific technical scheme is as follows:

in a first aspect, there is provided a control device for adjusting a hinge slot processing position, wherein the control device for adjusting the hinge slot processing position includes:

the door leaf lock hinge hole groove processing machine body is provided with a machine table;

the guide mechanisms are arranged on the machine table in parallel;

the transmission mechanism is arranged on the machine table;

the first hinge groove machining mechanism is arranged at one end of the plurality of guide mechanisms and is connected with the transmission mechanism, and the first hinge groove machining mechanism can be driven by the transmission mechanism to slide along the length direction of the plurality of guide mechanisms to adjust the machining position of the first hinge groove machining mechanism;

the second hinge groove machining mechanism is arranged on the plurality of guide mechanisms and is adjacent to the first hinge groove machining mechanism, the second hinge groove machining mechanism can slide along the length directions of the plurality of guide mechanisms, and the second hinge groove machining mechanism is also provided with a locking mechanism which is used for locking the second hinge groove machining mechanism and is fixed relative to the guide mechanisms; and

the connecting mechanism is arranged on the first hinge groove processing mechanism and the second hinge groove processing mechanism and used for connecting the first hinge groove processing mechanism with the second hinge groove processing mechanism, the transmission mechanism drives the second hinge groove processing mechanism to slide along the length directions of the guide mechanisms through the first hinge groove processing mechanism and the connecting mechanism so as to adjust the processing position of the second hinge groove processing mechanism, the locking mechanism locks and fixes the second hinge groove processing mechanism after the second hinge groove processing mechanism adjusts the processing position of the second hinge groove processing mechanism, the connecting mechanism is disconnected, the first hinge groove processing mechanism is separated from the second hinge groove processing mechanism, and the transmission mechanism drives the first hinge groove processing mechanism to slide along the length directions of the guide mechanisms so as to adjust the processing position of the first hinge groove processing mechanism.

In a first possible implementation manner of the first aspect, the machine further includes one or more other hinge groove processing mechanisms, and the other hinge groove processing mechanisms are disposed on the machine platform through a plurality of guide mechanisms.

In a second possible implementation manner of the first aspect, the plurality of guiding mechanisms are two cylindrical guide rails, and the two cylindrical guide rails are disposed on the machine platform in parallel.

In a second possible implementation manner of the first aspect, the transmission mechanism further includes:

the servo motor is arranged on the machine table and is positioned at the end part of the other end of the plurality of guide mechanisms; and the transmission screw rod is arranged in parallel with the plurality of guide mechanisms, one end of the transmission screw rod is connected with the servo motor, a screw rod pair of the transmission screw rod is connected with the second hinge groove machining mechanism, and the servo motor drives the transmission screw rod to rotate and drives the second hinge groove machining mechanism to slide along the length direction of the plurality of guide mechanisms.

In a fourth possible implementation manner of the first aspect, the first hinge groove processing mechanism and the second hinge groove processing mechanism further include:

the base is arranged on the plurality of guide mechanisms and can slide along the length directions of the plurality of guide mechanisms;

the hinge motor is arranged on the base; and

and the hinge processing cutter is connected with the hinge motor and is driven by the hinge motor to process the hinge groove.

With reference to the fourth possible implementation manner of the first aspect, in a fifth possible implementation manner of the first aspect, the first hinge groove processing mechanism and the second hinge groove processing mechanism further include:

the guide shafts and the guide mechanisms are vertically arranged on the base;

the sliding block is arranged on the plurality of guide shafts and can slide along the length direction of the plurality of guide shafts, and the hinge motor is arranged on the sliding block; and

and the driving cylinder is arranged on the base and connected with the sliding block, and the driving cylinder moves along the length direction of the guide shafts through the driving sliding block, so that the hinge motor is driven to move along the length direction of the guide shafts, and the machining position of the hinge machining tool is adjusted.

In a sixth possible implementation manner of the first aspect, the connection mechanism further includes:

the connecting shaft is arranged on the first hinge groove machining mechanism and is positioned towards the second hinge groove machining mechanism; and

and the first hinge groove machining mechanism is inserted into the locking unit through the connecting shaft and is connected with the second hinge groove machining mechanism.

With reference to the sixth possible implementation manner of the first aspect, in a seventh possible implementation manner of the first aspect, the locking unit further includes:

the locking cylinder seat is arranged on the second hinge groove machining mechanism and is provided with a locking hole corresponding to the connecting shaft; and

and the first locking cylinder is arranged on the second hinge groove processing mechanism corresponding to the locking cylinder seat and used for locking and fixing the connecting shaft in the locking hole.

With reference to the seventh possible implementation manner of the first aspect, in an eighth possible implementation manner of the first aspect, the locking unit further includes an inductive switch, which is disposed on the first hinge slot processing mechanism and electrically connected to the first locking cylinder, and the inductive switch is configured to sense whether the connecting shaft is inserted into the locking hole, and when the inductive switch senses that the connecting shaft is inserted into the locking hole, the inductive switch sends a signal to control the first locking cylinder to lock the connecting shaft in the locking hole.

In a ninth possible implementation manner of the first aspect, the locking mechanism further includes:

the clamping fixed seat is fixedly connected with the second hinge groove machining mechanism and is also provided with a plurality of clamping guide shafts;

the first clamping V-shaped block is arranged on the plurality of clamping guide shafts and is positioned on one side of one of the plurality of guide mechanisms;

the second clamping V-shaped block is arranged on the plurality of clamping guide shafts and is positioned on the other side of one guide mechanism; and

the second locking cylinder is arranged on the second clamping V-shaped block and connected with the first clamping V-shaped block, the second locking cylinder can drive the first clamping V-shaped block and the second clamping V-shaped block to move oppositely, the second hinge groove machining mechanism moves oppositely through the first clamping V-shaped block and the second clamping V-shaped block to clamp one of the guide mechanisms, and the second hinge groove machining mechanism is locked and fixed on the guide mechanisms.

Compared with the prior art, the utility model the advantage that has have:

the utility model discloses a first hinge groove processing agency can adjust its processing position through the drive mechanism drive, and second hinge groove processing agency can adjust the processing position through the drive mechanism drive under the drive of first hinge groove processing agency, and whole adjustment process is by numerical control, and it is fast to have the adjustment speed, and the machining precision is high, advantage that workman low in labor strength.

Drawings

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

Fig. 1 is a schematic structural diagram of a control device for adjusting a hinge slot processing position according to an embodiment of the present invention.

Fig. 2 and 3 are schematic partial structural views of a control device for adjusting a hinge slot processing position according to an embodiment of the present invention.

Fig. 4 is a schematic view illustrating adjustment of the processing position of the second hinge groove processing mechanism according to an embodiment of the present invention.

Fig. 5 is a schematic view illustrating adjustment of the machining position of the first hinge groove machining mechanism according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, embodiments of the present invention will be described in further detail below with reference to the accompanying drawings.

In an embodiment of the present invention, please refer to fig. 1, which shows a schematic structural diagram of a control device 1 for adjusting a hinge slot processing position according to an embodiment of the present invention. The control device 1 for adjusting the hinge slot processing position comprises a door leaf lock hinge hole slot processing machine body 2, a plurality of guide mechanisms 3, a transmission mechanism 4, a first hinge slot processing mechanism 6, a second hinge slot processing mechanism 7 and a connecting mechanism 8, wherein:

the door lock hinge hole slot processing machine body 2 has a machine table 21, and the machine table 21 is mainly used for providing rigid support for each mechanism in the embodiment. There is no particular requirement in this embodiment for the choice of the structure of the door leaf lock reaming slot machine body 2, as is conventional to those skilled in the art.

Referring to fig. 1 again, the plurality of guide mechanisms 3 are disposed on the machine table 21 in parallel, and the arrangement manner of the guide mechanisms may be that two brackets (not shown) are disposed on the machine table 21, and two ends of the plurality of guide mechanisms 3 are disposed on the two brackets or pass through the two brackets, so as to be disposed on the machine table 21 through the two brackets. But not limited thereto. The guiding mechanisms 3 disclosed in this embodiment are two cylindrical guide rails, and the two cylindrical guide rails are disposed on the machine platform in parallel, but not limited thereto.

The transmission mechanism 4 is disposed on the machine table 21. Referring to fig. 2 and 3, which are schematic partial structural diagrams of the control device 1 for adjusting the hinge slot processing position according to an embodiment of the present invention, the transmission mechanism 4 disclosed in this embodiment further includes a servo motor 41 and a transmission screw rod 42, and the servo motor 41 is disposed on the machine platform 21 and located at an end of the other end of the plurality of guide mechanisms 3. The servo motor 41 disclosed in this embodiment is disposed on the machine base 21 through the motor mounting base 43, and the motor mounting base 43 is disposed on the machine base 21 and located at an end of the other end of the plurality of guide mechanisms 3, and the servo motor 41 is disposed on the motor mounting base 43, but not limited thereto. The transmission screw rod 42 is arranged in parallel with the plurality of guide mechanisms 3, and one end of the transmission screw rod 42 is connected with the servo motor 41. Referring to fig. 2 and 3 again, the transmission mechanism 4 disclosed in this embodiment further includes a lead screw mounting seat 44, the lead screw mounting seat 44 is disposed on the machine platform 21 and located between the plurality of guide mechanisms 3, and the lead screw mounting seat 44 is pivotally connected to the other end of the transmission lead screw 42, but not limited thereto.

Referring to fig. 1-3 again, the first hinge slot processing mechanism 6 is disposed at the other end of the plurality of guiding mechanisms 3 and connected to the transmission mechanism 4, and the first hinge slot processing mechanism 6 can be driven by the transmission mechanism 4 to slide along the length direction of the plurality of guiding mechanisms 3 to adjust the processing position thereof, thereby implementing numerical control and automatically adjusting the processing position of the first hinge slot processing mechanism 6. The first hinge slot processing mechanism 6 disclosed in this embodiment is connected to a screw pair of a transmission screw 42, and the servo motor 41 drives the transmission screw 42 to rotate, so as to drive the first hinge slot processing mechanism 6 to slide along the length direction of the plurality of guide mechanisms 3, thereby adjusting the processing position of the first hinge slot processing mechanism 6.

Referring to fig. 1-3 again, the second hinge slot processing mechanism 7 is disposed on the plurality of guide mechanisms 3 and adjacent to the first hinge slot processing mechanism 6, the second hinge slot processing mechanism 7 can slide along the length direction of the plurality of guide mechanisms 3, and a locking mechanism 9 is further disposed on the second hinge slot processing mechanism 7 for locking and fixing the second hinge slot processing mechanism 7 on the plurality of guide mechanisms 3. Referring to fig. 3 again, the locking mechanism 9 disclosed in this embodiment further includes a clamping fixing seat 91, a first clamping V-shaped block 92, a second clamping V-shaped block 93, and a second locking cylinder 94, the clamping fixing seat 91 is fixedly connected to the second hinge slot processing mechanism 7, the clamping fixing seat 91 further has a plurality of clamping guide shafts 95, and the first clamping V-shaped block 92 is disposed on the plurality of clamping guide shafts 95 and located on one side of one of the plurality of guide mechanisms 3.

The second clamping V-shaped block 93 is disposed on the plurality of clamping guide shafts 95 and located at the other side of one of the guide mechanisms 3, the second locking cylinder 94 is disposed on the second clamping V-shaped block 93 and connected to the first clamping V-shaped block 92, the second locking cylinder 94 can drive the first clamping V-shaped block 92 and the second clamping V-shaped block 93 to move relatively and clamp the guide mechanism 3, and the second hinge slot processing mechanism 7 moves relatively through the first clamping V-shaped block 92 and the second clamping V-shaped block 93 and clamps one of the guide mechanisms 3, and is locked and fixed on the plurality of guide mechanisms 3, but not limited thereto.

In a preferred embodiment, the control device 1 for adjusting the hinge slot processing position further includes one or more other hinge slot processing mechanisms 5, the other hinge slot processing mechanisms 5 are disposed on the machine base 21 through the plurality of guide mechanisms 3, and the other hinge slot processing mechanisms 5 are disposed at positions corresponding to the hinge slot processing positions of the end portion of the member to be processed 10 (e.g., door leaf), which do not need to be adjusted and moved after being adjusted, but the present invention is not limited thereto.

In a preferred embodiment, referring to fig. 2 again, the first hinge slot processing mechanism 6 and the second hinge slot processing mechanism 7 further include a base 51, a hinge motor 52 and a hinge processing tool 53, respectively, the base 51 is disposed on the plurality of guide mechanisms 3 and can slide along the length direction of the plurality of guide mechanisms 3, the hinge motor 52 is disposed on the base 51 and is driven by the base 51 to slide along the length direction of the plurality of guide mechanisms 3 to adjust the processing position thereof, the hinge processing tool 53 is connected to the hinge motor 52, and the hinge processing tool 53 is driven by the hinge motor 52 to process the hinge slot, but not limited thereto.

In a preferred embodiment, referring to fig. 2 again, the first hinge slot processing mechanism 6 and the second hinge slot processing mechanism 7 further include a plurality of guide shafts 54, a slider 55 and a driving cylinder 56, respectively, the plurality of guide shafts 54 and the plurality of guide mechanisms 3 are vertically disposed on the base 51, and the number of the plurality of guide shafts 54 disclosed in this embodiment is two, but not limited thereto. The sliding block 55 is disposed on the plurality of guide shafts 54 and can slide along the length direction of the plurality of guide shafts 54, the hinge motor 52 is disposed on the sliding block 55, the driving cylinder 56 is disposed on the base 51 and connected to the sliding block 55, and the driving cylinder 56 drives the hinge motor 52 to move along the length direction of the plurality of guide shafts 54 by driving the sliding block 55 to move along the length direction of the plurality of guide shafts 54, so as to adjust the processing position of the hinge processing tool 53, but not limited thereto.

The connecting mechanism 8 is arranged on the first hinge groove processing mechanism 6 and the second hinge groove processing mechanism 7, and the connecting mechanism 8 is used for connecting the second hinge groove processing mechanism 7 with the first hinge groove processing mechanism 6. Referring to fig. 2 again, the connecting mechanism 8 disclosed in this embodiment further includes a connecting shaft 81 and a locking unit 82, the connecting shaft 81 is disposed on the first hinge slot processing mechanism 6 and located toward the second hinge slot processing mechanism 7, the locking unit 82 and the connecting shaft 81 are disposed on the second hinge slot processing mechanism 7, the first hinge slot processing mechanism 6 is inserted into the locking unit 82 through the connecting shaft 81 and connected to the second hinge slot processing mechanism 7, but not limited thereto. The locking unit 82 further disclosed in this embodiment further includes a locking cylinder block 821 and a first locking cylinder 822, the locking cylinder block 821 is disposed on the second hinge slot processing mechanism 7, the locking cylinder block 821 has a locking hole 823 corresponding to the connecting shaft 81, the first locking cylinder 822 and the locking cylinder block 821 are disposed on the second hinge slot processing mechanism 7, and the first locking cylinder 822 is used for locking and fixing the connecting shaft 81 in the locking hole 823, but not limited thereto.

In a preferred embodiment, referring to fig. 2 and 3 again, the locking unit 82 further includes a sensing switch 824, the sensing switch 824 is disposed on the first hinge slot processing mechanism 6 and electrically connected to the first locking cylinder 822, the sensing switch 824 is configured to sense whether the connecting shaft 81 is inserted into the locking hole 823, and when the sensing switch 824 senses that the connecting shaft 81 is inserted into the locking hole 823, a signal is sent to control the first locking cylinder 822 to lock and fix the connecting shaft 81 in the locking hole 823, so as to implement automatic and full-automatic control, but not limited thereto.

When the control device 1 for adjusting the processing position of the hinge slot according to the present embodiment is used for processing the hinge slot, the other hinge slot processing mechanisms 5 are generally fixed-bottom hinge mechanisms, which do not need to be adjusted and moved after being adjusted, and the first hinge slot processing mechanism 6 and the second hinge slot processing mechanism 7 are movable hinge mechanisms, which adjust the processing positions of the workpieces 10 to be processed (e.g., door leaves) according to the length change of the workpieces. Referring to fig. 4, a schematic diagram of the second hinge slot processing mechanism 7 according to an embodiment of the present invention is shown. When the machining position is adjusted, the transmission mechanism 4 drives the first hinge groove machining mechanism 6 to move along the length direction of the plurality of guide mechanisms 3, so that the first hinge groove machining mechanism 6 is connected with the second hinge groove machining mechanism 7 through the connecting mechanism 8, and the second hinge groove machining mechanism 7 is driven to slide along the length direction of the plurality of guide mechanisms 3 to adjust the machining position.

Referring to fig. 5, a schematic diagram of the first hinge slot processing mechanism 6 according to an embodiment of the present invention is shown. After the second hinge groove machining mechanism 7 adjusts the machining position of the second hinge groove machining mechanism, the locking mechanism 9 locks and fixes the second hinge groove machining mechanism 7 on the plurality of guide mechanisms 3, the connecting mechanism 8 is disconnected, the second hinge groove machining mechanism 7 is separated from the first hinge groove machining mechanism 6, the transmission mechanism 4 independently drives the first hinge groove machining mechanism 6 to slide along the length direction of the plurality of guide mechanisms 3, the machining position of the first hinge groove machining mechanism 6 is adjusted, and then the machining positions of the first hinge groove machining mechanism 6 and the second hinge groove machining mechanism 7 are automatically adjusted.

The foregoing description shows and describes several preferred embodiments of the present invention, but as before, it is to be understood that the invention is not limited to the forms disclosed herein, but is not to be construed as excluding other embodiments and is capable of use in various other combinations, modifications, and environments and is capable of changes within the scope of the inventive concept as expressed above, or as expressed in the technology or knowledge of the relevant art. But that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the invention, which is to be limited only by the claims appended hereto.

Claims (10)

1. A control device for adjusting a hinge slot machining position, characterized in that the control device for adjusting a hinge slot machining position comprises:

the door leaf lock hinge hole groove processing machine body is provided with a machine table;

the guide mechanisms are arranged on the machine table in parallel;

the transmission mechanism is arranged on the machine table;

the first hinge groove machining mechanism is arranged at one end of the plurality of guide mechanisms and is connected with the transmission mechanism, and the first hinge groove machining mechanism can be driven by the transmission mechanism to slide along the length direction of the plurality of guide mechanisms so as to adjust the machining position of the first hinge groove machining mechanism;

the second hinge groove machining mechanism is arranged on the plurality of guide mechanisms and is adjacent to the first hinge groove machining mechanism, the second hinge groove machining mechanism can slide along the length directions of the plurality of guide mechanisms, and the second hinge groove machining mechanism is also provided with a locking mechanism which is used for locking the second hinge groove machining mechanism and is fixed relative to the position of the guide mechanisms; and

the connecting mechanism is arranged on the first hinge groove processing mechanism and the second hinge groove processing mechanism, the connecting mechanism is used for connecting the first hinge groove processing mechanism and the second hinge groove processing mechanism, the transmission mechanism drives the second hinge groove processing mechanism to slide along the length direction of the plurality of guide mechanisms through the first hinge groove processing mechanism and the connecting mechanism so as to adjust the processing position of the second hinge groove processing mechanism, and after the second hinge slot processing mechanism adjusts the processing position thereof, the locking mechanism locks and fixes the second hinge slot processing mechanism, the connecting mechanism is disconnected, the first hinge groove processing mechanism is separated from the second hinge groove processing mechanism, the transmission mechanism drives the first hinge groove machining mechanism to slide along the length direction of the plurality of guide mechanisms, and the machining position of the first hinge groove machining mechanism is adjusted.

2. The control device for adjusting the hinge slot machining position according to claim 1, further comprising one or more other hinge slot machining mechanisms, wherein the other hinge slot machining mechanisms are disposed on the machine table through the plurality of guide mechanisms.

3. The control device for adjusting the processing position of the hinge slot as claimed in claim 1, wherein the plurality of guiding mechanisms are two cylindrical guide rails, and the two cylindrical guide rails are arranged on the machine platform in parallel.

4. The control device for adjusting the hinge slot machining position according to claim 1, wherein the transmission mechanism further comprises:

the servo motor is arranged on the machine table and is positioned at the end part of the other end of the plurality of guide mechanisms; and

and the transmission screw rod is arranged in parallel with the plurality of guide mechanisms, one end of the transmission screw rod is connected with the servo motor, a screw rod pair of the transmission screw rod is connected with the second hinge groove machining mechanism, and the servo motor drives the transmission screw rod to rotate so as to drive the second hinge groove machining mechanism to slide along the length directions of the plurality of guide mechanisms.

5. The control device for adjusting the hinge slot machining position according to claim 1, wherein the first hinge slot machining mechanism and the second hinge slot machining mechanism further include:

the base is arranged on the plurality of guide mechanisms and can slide along the length directions of the plurality of guide mechanisms;

the hinge motor is arranged on the base; and

and the hinge machining cutter is connected with the hinge motor and is driven by the hinge motor to machine a hinge groove.

6. The control device for adjusting the hinge slot machining position according to claim 5, wherein the first hinge slot machining mechanism and the second hinge slot machining mechanism further include:

the guide shafts and the guide mechanisms are vertically arranged on the base;

the sliding block is arranged on the plurality of guide shafts and can slide along the length directions of the plurality of guide shafts, and the hinge motor is arranged on the sliding block; and

and the driving cylinder is arranged on the base and connected with the sliding block, and drives the hinge motor to move along the length directions of the guide shafts by driving the sliding block to move along the length directions of the guide shafts so as to adjust the processing position of the hinge processing cutter.

7. The control device for adjusting the hinge slot machining position according to claim 1, wherein the connection mechanism further comprises:

the connecting shaft is arranged on the first hinge groove machining mechanism and is positioned towards the second hinge groove machining mechanism; and

and the first hinge groove machining mechanism is inserted into the locking unit through the connecting shaft and is connected with the second hinge groove machining mechanism.

8. The control device for adjusting the hinge slot processing position according to claim 7, wherein the locking unit further comprises:

the locking cylinder seat is arranged on the second hinge groove machining mechanism and is provided with a locking hole corresponding to the connecting shaft; and

and the first locking cylinder is arranged on the second hinge groove machining mechanism corresponding to the locking cylinder seat and used for locking and fixing the connecting shaft in the locking hole.

9. The control device for adjusting the processing position of the hinge slot as claimed in claim 8, wherein the locking unit further comprises a sensor switch disposed on the first hinge slot processing mechanism and electrically connected to the first locking cylinder, the sensor switch is configured to sense whether the connecting shaft is inserted into the locking hole, and when the sensor switch senses that the connecting shaft is inserted into the locking hole, the sensor switch sends a signal to control the first locking cylinder to lock and fix the connecting shaft in the locking hole.

10. The control device for adjusting the machining position of the hinge slot according to claim 1, wherein the locking mechanism further comprises:

the clamping fixed seat is fixedly connected with the second hinge groove machining mechanism and is also provided with a plurality of clamping guide shafts;

the first clamping V-shaped block is arranged on the plurality of clamping guide shafts and is positioned on one side of one guide mechanism in the plurality of guide mechanisms;

the second clamping V-shaped block is arranged on the plurality of clamping guide shafts and is positioned on the other side of one of the guide mechanisms; and

and the second locking cylinder is arranged on the second clamping V-shaped block and is connected with the first clamping V-shaped block, the second locking cylinder can drive the first clamping V-shaped block and the second clamping V-shaped block to move oppositely, and the second hinge groove machining mechanism clamps one of the guide mechanisms through the opposite movement of the first clamping V-shaped block and the second clamping V-shaped block and is locked and fixed on the guide mechanisms.

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