CN217193851U - Multifunctional door leaf processing production line - Google Patents

Abstract

The utility model discloses a multi-functional door leaf processing lines, include: conveying device, side processingequipment and terminal surface processingequipment. The conveying device comprises a plurality of conveying units which are arranged in tandem and are provided with conveying surfaces. The left side and the right side of the conveying device are respectively provided with at least one side face processing device, the rear end of at least one conveying unit is provided with an end face processing device arranged forwards, and the front end of at least one conveying unit is provided with an end face processing device arranged backwards. The utility model discloses a multi-functional door leaf processing lines, the terminal surface processingequipment through the side processingequipment of conveyor both sides and different orientation can carry out the processing of four tip all around to the door leaf panel on the conveyor, can satisfy the processing of more door leaf five metals mounting grooves. The utility model discloses can be applied to in the door leaf processing production.

Description

Multifunctional door leaf processing production line

Technical Field

The utility model relates to a door leaf processing equipment technical field, in particular to multi-functional door leaf processing lines.

Background

The weight of door leaf is great, and in traditional production, manual operation processing tool produced, and intensity of labour is big, and is efficient, therefore more and more big to the demand of automated processing equipment, and the kind of processing equipment is more and more, and degree of automation is also more and more high. For the door leaves of fire doors and engineering doors, a plurality of projects are needed to be processed. The production line that is used for the door leaf processing among the prior art can only process the lock hole, the locked groove of door leaf to and the hinge groove, need carry out other man-hour, need carry the equipment that corresponds again from the production line and carry out the processing production, or need carry the door leaf, or need carry out long distance transport to the door leaf, and is great to production efficiency's influence.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a multi-functional door leaf processing lines to solve one or more technical problem that exist among the prior art, provide a profitable selection or create the condition at least.

The technical scheme adopted for solving the technical problems is as follows:

a multi-functional door leaf processing lines includes: the device comprises a conveying device, a side surface processing device and an end surface processing device; the conveying device comprises a plurality of conveying units, the conveying units are provided with conveying surfaces which extend forwards and backwards and are used for bearing and conveying foreign materials, the conveying units are arranged and arranged in the front-back direction, the left side and the right side of the conveying device are respectively provided with at least one side surface processing device, the rear end of at least one conveying unit is provided with an end surface processing device which is arranged forwards, and the front end of at least one conveying unit is provided with an end surface processing device which is arranged backwards.

The utility model provides a multi-functional door leaf processing lines has following beneficial effect at least: the conveying unit can convey the door leaf plate, the side face processing device arranged on the left side of the conveying unit can process the left end of the door leaf plate, the side face processing device arranged on the right side can process the right end of the door leaf plate, the end face processing device arranged towards the rear can process the front end of the door leaf plate, and the end face processing device arranged towards the front can process the rear end of the door leaf plate; the processing production of the position of each side of door leaf can be realized, strong adaptability can satisfy different processing demands. The utility model discloses a multi-functional door leaf processing lines, except that can process out door keyway lock hole and hinge groove in the left and right sides of door leaf through the side processingequipment of conveying unit both sides, can also carry out the door closer mounting groove through the terminal surface processingequipment to both ends around the door leaf, move the door groove, the hanging wheel groove colludes the limit, the processing of cotter way and paint hole etc. can satisfy the door leaf processing of all production needs basically, after avoiding the door leaf to process on the production line, still need to shift to professional equipment and process in addition.

As a further improvement of the above technical solution, the side surface processing device and the end surface processing device are both provided with a processing assembly, the processing assembly includes a processing member and a processing transfer mechanism, the processing member has a processing end for processing the foreign material, and the processing transfer mechanism is used for driving the processing member to move relative to the conveying unit. Through the technical scheme, the machining transfer mechanism drives the machining component to move, and the hardware mounting groove in the specified shape is machined on the door leaf plate through the machining end moving according to the preset path.

As a further improvement of the above technical solution, a processing assembly of the side processing apparatus is used as a side processing assembly; the side surface processing assembly is connected with the conveying unit in a sliding mode along the front-back direction, the side surface processing device is provided with a first translation driving member, and the first translation driving member is provided with a first moving driving end which is in transmission connection with the side surface processing assembly and enables the side surface processing assembly to move back and forth relative to the conveying unit. Through the technical scheme, the first translation driving component can drive the side processing component to move back and forth relative to the conveying unit, so that the side processing component can adjust the relative position of the processing component and the door leaf plate as required, and the processing range is wider.

As a further improvement of the above technical scheme, a machining component of the end face machining device is used as an end face machining component; the end face machining assembly is connected with the conveying unit in a sliding mode along the left-right direction, the side face machining device is provided with a second translation driving member, and the second translation driving member is provided with a second movement driving end which is in transmission connection with the end face machining assembly and enables the end face machining assembly to move back and forth relative to the conveying unit. Through the technical scheme, the second translation driving component can drive the end face machining component to move left and right relative to the conveying unit, so that the end face machining component can adjust the relative position of the machining component and the door leaf plate as required, and the machining range is wider; after the processing is finished, the door leaf plate can be moved away from the conveying surfaces of the front conveying unit and the rear conveying unit, so that the door leaf plate can be conveyed forwards and backwards continuously.

As a further improvement of the above technical solution, the multifunctional door leaf processing production line further includes a transition device, the transition device is disposed at a side of the end face processing device, the transition device is disposed at a front end or a rear end of the conveying unit, the transition device includes a transition frame body, a transition conveying roller and a transition driving unit, the transition conveying roller is axially disposed along a left-right direction, a plurality of transition conveying rollers are rotatably arranged on the transition frame body, one end of the transition frame body is provided with a hinged end movably connected with the conveying unit, and the transition driving unit is provided with a transition driving end which is in transmission connection with the transition frame body and enables the transition frame body to be opposite to the conveying unit. According to the technical scheme, a gap needs to be reserved between the conveying units on the front side and the rear side of the end face machining device for the movement of the end face machining assembly, when the end face machining assembly moves away and a door leaf plate is conveyed continuously, the transition driving unit can drive the transition frame body to be turned up, the door leaf plate is supported and conveyed through the transition conveying rollers between the conveying units, and the connection line butt joint is facilitated; when the transition frame body is turned downwards and is folded, the end face machining assembly can move out to machine the end part of the door leaf.

As a further improvement of the above technical solution, the processing member includes a processing mounting member, a protruding driving member, and a plurality of processing units, the processing end is disposed on the processing unit, the plurality of processing units are all mounted on the processing mounting member, the number of the protruding driving members corresponds to the number of the processing units one by one, and the protruding driving member is provided with a protruding driving end which is in transmission connection with the corresponding processing unit and enables the processing unit to move relative to the processing mounting member. Through the technical scheme, the stretching driving component can drive the corresponding processing units to stretch out for processing, so that different processing units can be selected according to different processing requirements in the processing process, and the processing efficiency and the processing precision are improved.

As a further improvement of the above technical solution, the processing transfer mechanism has an X-axis direction, a Y-axis direction, and a Z-axis direction that are orthogonal to each other; the processing transfer mechanism comprises a first moving seat, a second moving seat, a third moving seat, a first driving mechanism, a second driving mechanism and a third driving mechanism; the first driving mechanism is used for driving the first moving seat to move along the X axial direction relative to the conveying unit, the second driving mechanism is used for driving the second moving seat to move along the Y axial direction relative to the first moving seat, and the third driving mechanism is used for driving the third moving seat to move along the Z axial direction relative to the second moving seat; the processing member is mounted on the third movable base.

It should be noted that: the above-mentioned mutually orthogonal X-axis, Y-axis, and Z-axis are virtual features, and are provided for convenience of accurately describing the movement direction. Through the technical scheme, the first driving mechanism, the second driving mechanism and the third driving mechanism of the machining transfer mechanism can respectively drive the first movable seat, the second movable seat and the third movable seat to move along three mutually perpendicular directions, so that the machining component can move linearly or curvedly along any direction, and machining of the profiling groove with a complex shape is realized.

As a further improvement of the above technical solution, each of the conveying units is provided with at least one side processing device, the conveying unit includes a positioning assembly, the positioning assembly includes a fixing block, a positioning block and a positioning driving unit, the fixing block is disposed on one side of the conveying unit close to the side processing device, and the positioning driving unit is provided with a positioning driving end which is in transmission connection with the positioning block and enables the positioning block to move left and right relative to the fixing block. Through the technical scheme, the positioning driving unit can drive the positioning block to move in the left-right direction, when the positioning block is close to the fixed block, the door leaf plates on the conveying unit can be clamped and positioned, and when the positioning block is far away from the fixed block, the door leaf plates are loosened to continue to be conveyed forwards and backwards.

Drawings

The present invention will be further explained with reference to the drawings and examples;

fig. 1 is a schematic perspective view of an embodiment of a multifunctional door leaf processing line provided by the present invention;

fig. 2 is a top view of an embodiment of the multifunctional door leaf processing line provided by the present invention;

fig. 3 is a side view of an embodiment of the multifunctional door leaf processing line provided by the present invention;

fig. 4 is a schematic partial perspective view of an embodiment of the multifunctional door leaf processing line provided by the present invention;

FIG. 5 is an enlarged view of a portion of area A of FIG. 1;

fig. 6 is a partially enlarged view of the region B in fig. 3.

In the figure: 100. a conveying device; 110. a conveying unit; 120. a positioning assembly; 121. a fixed block; 122. positioning a block; 123. a positioning drive unit; 200. a side processing device; 210. a first translation drive member; 300. an end face machining device; 310. a second translation drive member; 400. processing the assembly; 410. processing the component; 420. a processing transfer mechanism; 500. a transition device; 510. a transition frame body; 520. a transition conveying roller; 530. a transition drive unit.

Detailed Description

This section will describe in detail the embodiments of the present invention, preferred embodiments of the present invention are shown in the attached drawings, which are used to supplement the description of the text part of the specification with figures, so that one can intuitively and vividly understand each technical feature and the whole technical solution of the present invention, but they cannot be understood as the limitation of the protection scope of the present invention.

In the description of the present invention, it should be understood that the directional descriptions, such as the directions or positional relationships indicated by upper, lower, front, rear, left, right, etc., are based on the directions or positional relationships shown in the drawings, and are only for convenience of description and simplification of the description, but not for indicating or implying that the device or element referred to must have a specific direction, be constructed and operated in a specific direction, and thus should not be construed as limiting the present invention.

In the description of the present invention, if words such as "a plurality of" are used, the meaning is one or more, the meaning of a plurality of words is two or more, and the meaning of more than, less than, more than, etc. is understood as not including the number, and the meaning of more than, less than, more than, etc. is understood as including the number.

In the description of the present invention, unless there is an explicit limitation, the words such as setting, installation, connection, etc. should be understood in a broad sense, and those skilled in the art can reasonably determine the specific meanings of the above words in combination with the specific contents of the technical solution.

Referring to fig. 1 to 6, the multifunctional door leaf processing line of the present invention comprises the following embodiments:

a multi-functional door leaf processing lines includes: a conveying device 100, a side surface processing device 200, an end surface processing device 300 and a transition device 500.

The conveyor 100 comprises a plurality of conveyor units 110. The conveyor unit 110 has a conveying surface extending in the front-rear direction for receiving and conveying foreign material. The plurality of the conveying units 110 are arranged in a front-rear direction.

At least one side processing device 200 is provided on each of the left and right sides of the conveying device 100. The rear end of at least one of the conveying units 110 is provided with the end face machining device 300 arranged forward; the front end of at least one of the conveying units 110 is provided with the facing-back end surface processing device 300.

The side surface processing device 200 and the end surface processing device 300 are both provided with processing assemblies 400. The processing assembly 400 includes a processing member 410 and a processing transfer mechanism 420. The processing member 410 has a processing end for processing the foreign material, and the processing transfer mechanism 420 is used for driving the processing member 410 to move relative to the conveying unit 110.

The processing transfer mechanism 420 includes a first movable base, a second movable base, a third movable base, a first driving mechanism, a second driving mechanism, and a third driving mechanism.

The first movable seat is connected with the conveying unit 110 in a sliding manner along the X-axis direction. The first driving mechanism is provided with a first driving end which is in transmission connection with the first movable base and enables the first movable base to move along the X-axis direction relative to the conveying unit 110.

The second movable seat is slidably mounted on the first movable seat along the Y-axis direction. The second driving mechanism is provided with a second driving end which is in transmission connection with the second movable seat and enables the second movable seat to move along the Y-axis direction relative to the first movable seat.

And the third movable seat is slidably arranged on the second movable seat along the Z-axis direction. The third driving mechanism is provided with a third driving end which is in transmission connection with the third movable seat and enables the third movable seat to move along the Z-axis direction relative to the second movable seat.

The processing member 410 is mounted to the third movable base. The first driving mechanism, the second driving mechanism and the third driving mechanism can respectively drive the processing member 410 to move in three mutually perpendicular directions, so that the processing path requirements of installation slots of various standard parts on the door leaf are met.

Note that the processing transfer means 420 of the side surface processing apparatus 200 and the end surface processing apparatus 300 may be arranged in different directions in the X, Y, Z axial direction. In this embodiment, the X axis of the side surface processing apparatus 200 is arranged in the front-rear direction, the Y axis is arranged in the left-right direction, and the Z axis is arranged in the up-down direction. The end surface processing device 300 is configured such that the X axis is set in the left-right direction, the Y axis is set in the front-rear direction, and the Z axis is set in the up-down direction. In other embodiments, the X, Y, Z axis may even be disposed at an angle to the front-to-back direction. In other embodiments, the processing transfer mechanism 420 may be provided with only a first movable base, a second movable base, a first driving mechanism, and a second driving mechanism, and the processing member 410 is mounted on the second movable base. The machining transfer mechanism 420 moves the machining member 410 in two directions perpendicular to each other to perform machining.

The processing member 410 includes a processing mount, a protruding drive member, and a plurality of processing units. The processing unit is provided with a driving motor and a processing cutter, the driving motor is in driving connection with the processing cutter, and the processing cutter is driven to rotate through the driving motor so as to process the door leaf plate. The processing end is arranged on the processing cutter.

The plurality of processing units are all installed on the processing installation piece, and the number of the extending driving members corresponds to the number of the processing units one by one. The extending driving component is provided with an extending driving end which is in transmission connection with the corresponding processing unit and enables the processing unit to move relative to the processing installation part. Different processing cutters can be predetermine to a plurality of processing units, in the course of working, through it stretches out corresponding processing unit and stretches out and process to stretch out drive member, realizes the switching of cutter, further promotes machining efficiency. The extending driving component can adopt a cylinder, an electric push rod, a hydraulic push rod or a linear driving component such as a screw nut driving component and the like.

The machining module 400 of the side machining apparatus 200 is used as the side machining module 400; the machining module 400 of the end face machining apparatus 300 is used as the end face machining module 400.

The side processing assembly 400 is slidably coupled to the conveying unit 110 in a front-rear direction. The side processing apparatus 200 is provided with a first translation driving means 210. The first translational driving member 210 is provided with a first moving driving end which is in transmission connection with the side processing assembly 400 and enables the side processing assembly 400 to move back and forth relative to the conveying unit 110.

The end face machining assembly 400 is connected to the conveying unit 110 in a sliding manner in the left-right direction. The side processing apparatus 200 is provided with a second translation driving member 310. The second translational drive member 310 is provided with a second movable drive end that is drivingly connected to the end-face machining assembly 400 and moves the end-face machining assembly 400 back and forth relative to the feed unit 110.

In the present embodiment, the first translation driving member 210 and the second translation driving member 310 both adopt a rack and pinion transmission structure. Taking the side machining assembly 400 as an example: the first translation drive member 210 includes a translation drive unit, a drive gear, and a drive rack. The transmission rack is fixedly installed on the side surface of the conveying unit 110, the driving gear is rotatably installed on the side surface processing assembly 400, and the translation driving unit is in driving connection with the driving gear. The translation driving unit can adopt a servo motor, a stepping motor or a pneumatic motor and other rotary driving elements. The translation driving unit drives the driving gear to rotate, and the driving gear and the transmission rack are in meshed transmission, so that the side processing assembly 400 and the conveying unit 110 move relatively.

In some embodiments, the first and second translational drive members 210 and 310 may be implemented by a chain drive, a belt drive, or a worm and gear drive.

In order to facilitate the door leaf plates to move left and right on the conveying unit 110 to realize side-by-side positioning, in this embodiment, the conveying unit 110 is a roller conveying mechanism, and the roller conveying mechanism can provide support and conveying for plate-shaped foreign materials, and meanwhile, the contact area between the roller conveying mechanism and the materials is small, so that the materials can move along the axial direction of a roller conveniently; simultaneously can set up other mechanisms between the adjacent roller, the flexibility is stronger, and the piece that the course of working produced simultaneously can drop in the clearance between the roller, can not remain on the transport face, causes the influence to the transport of physics. In other embodiments, the conveying unit 110 may employ a belt conveying mechanism.

The delivery unit 110 includes a positioning assembly 120. The positioning assembly 120 includes a fixing block 121, a positioning block 122, and a positioning driving unit 123. The fixing block 121 is disposed on one side of the conveying unit 110 close to the side processing device 200, and the positioning driving unit 123 is disposed with a positioning driving end which is in transmission connection with the positioning block 122 and enables the positioning block 122 to move left and right relative to the fixing block 121.

Taking the conveying unit 110 with the side processing device 200 on the left side as an example: the fixed block 121 is fixedly installed at the left edge of the conveying unit 110, and a fixed portion higher than the conveying surface is arranged at the right end of the fixed block 121. The positioning block 122 is disposed on the right side of the conveying unit 110 and connected with the conveying unit 110 in a sliding manner along the left-right direction, and a positioning portion higher than the conveying surface is disposed at the left end of the positioning block 122. When the positioning driving unit 123 drives the positioning block 122 to abut against the left, the material on the conveying surface can be clamped between the fixing portion and the positioning portion, so that the side surface processing device 200 can process the material conveniently.

For the conveying unit 110 using roller conveying, the positioning block 122 may be disposed between two adjacent conveying rollers, and the positioning driving unit 123 may use an air cylinder and is disposed below the conveying rollers. In other embodiments, the positioning driving unit 123 may employ a linear driving member such as an electric push rod, a hydraulic push rod, or a lead screw nut driving assembly.

The transition device 500 is disposed beside the end face machining device 300 and connected to the conveying unit 110. The transition device 500 includes a transition frame body 510, a transition conveying roller 520, and a transition driving unit 530. The transition conveyor roller 520 is disposed in the left-right direction in the axial direction. A plurality of the transition conveying rollers 520 are arranged and rotatably mounted on the transition frame body 510. One end of the transition frame body 510 is provided with a hinged end movably connected with the conveying unit 110. The transition driving unit 530 is provided with a transition driving end which is in transmission connection with the transition frame body 510 and enables the transition frame body 510 to rotate relative to the conveying unit 110.

While the preferred embodiments of the present invention have been described in detail, it will be understood by those skilled in the art that the foregoing and various other changes, omissions and deviations in the form and detail thereof may be made without departing from the scope of this invention.

Claims (8)

1. The utility model provides a multi-functional door leaf processing lines which characterized in that: the method comprises the following steps: a conveying device (100), a side surface processing device (200) and an end surface processing device (300);

conveyor (100) include a plurality of conveying unit (110), conveying unit (110) have the front and back extend, be used for bearing and carrying the transport face of foreign material, it is a plurality of conveying unit (110) arrange the setting along the fore-and-aft direction, conveyor (100)'s the left and right sides is equipped with at least one respectively side processingequipment (200), at least one conveying unit (110)'s rear end is equipped with and sets up forward terminal surface processingequipment (300), at least one conveying unit (110)'s front end is equipped with and sets up backward terminal surface processingequipment (300).

2. A multifunctional door leaf processing line according to claim 1, characterized in that: the side surface processing device (200) and the end surface processing device (300) are respectively provided with a processing assembly (400), each processing assembly (400) comprises a processing component (410) and a processing transfer mechanism (420), each processing component (410) is provided with a processing end used for processing a foreign material, and each processing transfer mechanism (420) is used for driving each processing component (410) to move relative to the conveying unit (110).

3. A multifunctional door leaf processing line according to claim 2, characterized in that: a machining module (400) of the side machining device (200) is used as a side machining module (400); the side surface machining assembly (400) is connected with the conveying unit (110) in a sliding mode along the front-back direction, the side surface machining device (200) is provided with a first translation driving member (210), and the first translation driving member (210) is provided with a first moving driving end which is in transmission connection with the side surface machining assembly (400) and enables the side surface machining assembly (400) to move back and forth relative to the conveying unit (110).

4. A multifunctional door leaf processing line according to claim 2, characterized in that: a machining module (400) of the end face machining device (300) is used as an end face machining module (400); the end face machining assembly (400) is connected with the conveying unit (110) in a sliding mode along the left-right direction, the side face machining device (200) is provided with a second translation driving member (310), and the second translation driving member (310) is provided with a second movement driving end which is in transmission connection with the end face machining assembly (400) and enables the end face machining assembly (400) to move back and forth relative to the conveying unit (110).

5. A multifunctional door leaf processing line according to claim 2, characterized in that: the processing member (410) comprises a processing mounting part, a stretching driving member and a plurality of processing units, the processing end is arranged on the processing unit, the processing units are arranged on the processing mounting part, the number of the stretching driving members corresponds to the number of the processing units one by one, and the stretching driving member is provided with a stretching driving end which is in transmission connection with the corresponding processing units and enables the processing units to move relative to the processing mounting part.

6. Multifunctional door leaf processing line according to claim 5, characterized in that: the multifunctional door leaf processing production line also comprises a transition device (500), the transition device (500) is arranged at the side of the end face processing device (300), the transition device (500) is arranged at the front end or the rear end of the conveying unit (110), the transition device (500) comprises a transition frame body (510), a transition conveying roller (520) and a transition driving unit (530), the axial direction of the transition conveying rollers (520) is arranged along the left-right direction, a plurality of transition conveying rollers (520) are arranged and rotatably arranged on the transition frame body (510), one end of the transition frame body (510) is provided with a hinged end movably connected with the conveying unit (110), the transition driving unit (530) is provided with a transition driving end which is in transmission connection with the transition frame body (510) and enables the transition frame body (510) to rotate relative to the conveying unit (110).

7. A multifunctional door leaf processing line according to claim 2, characterized in that: the processing transfer mechanism (420) is provided with an X axial direction, a Y axial direction and a Z axial direction which are mutually orthogonal;

the processing transfer mechanism (420) comprises a first moving seat, a second moving seat, a third moving seat, a first driving mechanism, a second driving mechanism and a third driving mechanism;

the first driving mechanism is used for driving the first movable seat to move along the X axial direction relative to the conveying unit (110), the second driving mechanism is used for driving the second movable seat to move along the Y axial direction relative to the first movable seat, and the third driving mechanism is used for driving the third movable seat to move along the Z axial direction relative to the second movable seat;

the processing member (410) is mounted to the third movable base.

8. Multifunctional door leaf processing line according to claim 1, characterized in that: each conveying unit (110) is provided with at least one side processing device (200), each conveying device (100) comprises a positioning assembly (120), each positioning assembly (120) comprises a fixing block (121), a positioning block (122) and a positioning driving unit (123), each fixing block (121) is arranged on one side, close to the side processing device (200), of each conveying unit (110), and each positioning driving unit (123) is provided with a positioning driving end which is in transmission connection with each positioning block (122) and enables each positioning block (122) to move left and right relative to each fixing block (121).

Images