CN115179101B - Light gantry machining center with lifting door for battery tray - Google Patents

Abstract

The invention provides a battery tray light gantry machining center with a lifting door, which comprises a base, a machining platform, a machining module, a fixed fence and a movable fence. The processing platform sets up on the base, and processing module is located processing platform top, and fixed rail arranges along the periphery of base, and base one side at least is provided with movable rail, and movable rail and fixed rail cooperation form around to base and processing module and seal, and movable rail includes telescopic machanism, fixing base and dodge gate, and the fixing base is fixed to be set up in the week side of base, dodge gate and fixing base sliding connection, and telescopic machanism connects in the bottom of dodge gate to drive dodge gate slip outstanding at the top of fixing base. According to the battery tray light gantry machining center with the lifting door, the movable fence is matched with the fixed fence to form a seal around the base and the machining module, the movable door of the movable fence can lift, various frames are not required to be arranged, the opening and closing space is large, and loading and unloading are convenient.

Description

Light gantry machining center with lifting door for battery tray

Technical Field

The invention relates to the field of machining centers, in particular to a lightweight gantry machining center with a lifting door and a battery tray.

Background

Machining centers have evolved from numerically controlled milling machines. The greatest difference with the numerical control milling machine is that the machining center has the capability of automatically exchanging machining tools, and the machining tools on the main shaft can be changed through an automatic tool changing device in one clamping process by installing tools with different purposes on the tool magazine, so that multiple machining functions are realized. In the prior art, the machining center is generally provided with an outer cover for protection, and a plurality of windows are arranged on the side face of the outer cover for loading and unloading, but the window area is small, and various fixed frame limitations exist, so that loading and unloading operations are inconvenient.

It is desirable to provide a lightweight gantry machining center with a lifting door for battery trays to solve the above-mentioned technical problems.

Disclosure of Invention

The invention provides a battery tray light gantry machining center with a lifting door, which aims to solve the problems that in the prior art, the machining center is provided with a plurality of windows on the side surface of an outer cover for loading and unloading, the window area is small, and various fixed frames are limited, so that loading and unloading operations are inconvenient.

In order to solve the technical problems, the technical scheme of the invention is as follows: a battery tray lightweight gantry machining center with lift gate, comprising: the device comprises a base, a processing platform, a processing module, a fixed fence and a movable fence;

the processing platform is arranged on the base, the processing module is located above the processing platform, the fixed rail is arranged along the periphery of the base, at least one side of the base is provided with the movable rail, the movable rail is matched with the fixed rail to form a seal with the periphery of the processing module, the movable rail comprises a telescopic mechanism, a fixed seat and a movable door, the fixed seat is fixedly arranged on the periphery of the base, the movable door is in sliding connection with the fixed seat, the telescopic mechanism is connected with the bottom of the movable door, and the telescopic mechanism is used for driving the movable door to slide and protrude out of the top of the fixed seat so as to form a seal with the processing module.

In the invention, the telescopic mechanism comprises a cross type telescopic frame, a motor and a transmission screw, wherein the cross type telescopic frame comprises a plurality of cross units, each cross unit comprises a first cross rod and a second cross rod which are connected in a rotating way, the motor is connected with the cross type telescopic frame through the transmission screw so as to control the cross type telescopic frame to stretch and retract, a sliding groove is formed in the bottom of the movable door, rollers are arranged on the first cross rod and the second cross rod at the top of the cross type telescopic frame, and the cross type telescopic frame is connected with the sliding groove in a sliding way through the rollers.

The movable door comprises a first-stage door body and a second-stage door body, the second-stage door body is arranged in the first-stage door body in a sliding mode, a first stop block is arranged at the top of the inner side of the first-stage door body, a second stop block is arranged at the bottom of the outer side of the second-stage door body, a sliding groove is formed in the bottom of the second-stage door body, when the second-stage door body is pushed to ascend by the telescopic mechanism, the second stop block is in contact with the first stop block, the first-stage door body is driven to ascend, and when the second-stage door body descends by the telescopic mechanism, the first-stage door body descends under the action of gravity.

In the invention, the movable fence is arranged on three adjacent sides of the base, the inner cavities of the fixed seats on the three sides are communicated, and the adjacent movable doors are in sliding contact.

Further, reinforcing seats are arranged between the fixing seats on the three sides, and extend to the bottom of the processing platform.

In the invention, the fixed seat is connected with the outer surface of the fixed rail, and the movable door is in sliding contact with the outer surface of the fixed rail;

the fixed rail is characterized in that an extension plate is arranged on the outer surface of the fixed rail, the extension plate extends into an inner cavity of the fixed seat, and the movable door is in sliding contact with the extension plate.

In the invention, the processing platform is arranged on the base in a sliding way, two sides adjacent to one end of a sliding track of the processing platform are respectively provided with the movable fence, and the other side is provided with a manual lifting door which comprises a base and a lifting door body in sliding connection with the base.

Further, a locking piece is arranged on the outer surface of the fixed fence, a lock column used for being connected with the locking piece is arranged on one side of the manual lifting door, and the axial direction of the lock column is perpendicular to the lifting direction of the manual lifting door;

the locking piece is elastically and slidably connected to the outer surface of the fixed rail through an elastic piece, a locking piece is arranged on one side of the locking piece, a guide inclined surface is arranged at the bottom end of the locking piece, a clamping groove is formed in the top of the locking piece, a movable guide plate is rotatably connected to the locking piece through a torsion spring, the guide inclined surface obliquely faces the base, the guide inclined surface is positioned on the sliding track of the lock column, the lock column extrudes the guide inclined surface to enable the locking piece to shrink inwards, so that the lock column and the locking piece keep away, and the clamping groove clamps the lock column sliding through the locking piece;

the movable guide plate is located above the clamping groove, the torsion spring is used for driving the movable guide plate to be located at a limiting position, when the movable guide plate is located at the limiting position, one end of the movable guide plate is in limiting contact with the locking piece, the locking piece limits the movable guide plate to rotate towards the direction close to the clamping groove, the bottom edge of the movable guide plate is located above the movable guide plate in a vertical direction and keeps away from the locking piece, and the lock column can squeeze the movable guide plate to enable the locking piece to extend, so that the lock column and the locking piece are staggered and slide downwards.

Further, a bolt is movably arranged on the movable door of the movable fence adjacent to the manual lifting door, a bolt fastener used for being connected with the bolt is arranged on the lifting door body, and when the movable door rises to the topmost position, the lock column is clamped in the clamping groove.

In the invention, the movable fence is positioned at one end of the sliding track of the processing platform, and a sliding door is arranged at one side of the fixed fence away from the movable fence.

Compared with the prior art, the invention has the beneficial effects that: according to the battery tray light gantry machining center with the lifting door, the movable fence is matched with the fixed fence to form a seal around the base and the machining module, the movable door of the movable fence can lift, various frames are not required to be arranged, the opening and closing space is large, and loading and unloading are convenient.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings that are needed in the embodiments are briefly described below, and the drawings in the following description are only drawings corresponding to some embodiments of the present invention.

Fig. 1 is a schematic view showing the structure of a first embodiment of a battery tray light gantry machining center with a lifting door according to the present invention.

Fig. 2 is a schematic structural view of the telescopic mechanism and the movable door in the present invention.

Fig. 3 is a schematic structural view of a movable door provided with a primary door body and a secondary door body.

Fig. 4 is a schematic view of a part of the connection structure of the telescopic mechanism and the chute in the present invention.

Fig. 5 is a schematic structural view of a reinforcing seat disposed between a plurality of movable rails in the present invention.

Fig. 6 is a partial structural schematic view of a second embodiment of a battery tray lightweight gantry machining center with lift gates of the present invention.

Fig. 7 is an enlarged view of the structure of the locking member and the lock cylinder at X in fig. 6.

Fig. 8 is a schematic view of a stud and a latch in a second embodiment.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The terms of directions used in the present invention, such as "up", "down", "front", "back", "left", "right", "inside", "outside", "side", "top" and "bottom", are used for explaining and understanding the present invention only with reference to the orientation of the drawings, and are not intended to limit the present invention.

The words "first," "second," and the like in the terminology of the present invention are used for descriptive purposes only and are not to be construed as indicating or implying relative importance and not as limiting the order of precedence.

In the present invention, unless specifically stated and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly, and may be, for example, detachably connected, or integrally formed; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communicated with the inside of two elements or the interaction relationship of the two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art according to the specific circumstances.

New energy products are increasingly used in the past, and a plurality of processing centers are also used for processing battery trays. In the prior art, a processing center is generally provided with a plurality of windows on the side surface of the outer cover for loading and unloading, but the window area is small, so that the loading and unloading operation is inconvenient.

The following is a first embodiment of a battery tray light gantry machining center with a lifting door, which can solve the above technical problems.

Referring to fig. 1, fig. 1 is a schematic structural diagram of a first embodiment of a lightweight gantry machining center with a battery tray having a lifting door according to the present invention.

In the drawings, like structural elements are denoted by like reference numerals.

The invention provides a battery tray light gantry machining center with a lifting door, which comprises: base 11, processing platform 12, processing module 13, fixed rail 14 and movable rail 15.

Wherein, processing platform 12 sets up on base 11, processing module 13 is located processing platform 12 top, fixed rail 14 arranges along the periphery of base 11, at least one side of base 11 is provided with movable rail 15, movable rail 15 and fixed rail 14 cooperation form the closure around base 11 and processing module 13, movable rail 15 includes telescopic machanism 153, fixing base 151 and dodge gate 152, the fixing base 151 is fixed to be set up in the week side of base 11, dodge gate 152 and fixing base 151 sliding connection, telescopic machanism 153 is connected in the bottom of dodge gate 152, telescopic machanism 153 is used for driving dodge gate 152 slip and outstanding at the top of fixing base 151, in order to form the closure to base 11 and processing module 13.

Referring to fig. 2, in the present embodiment, the telescopic mechanism 153 includes a cross type telescopic frame 1533, a motor 1531 and a driving screw 1532, the cross type telescopic frame 1533 includes a plurality of cross units, each cross unit includes a first cross rod and a second cross rod which are rotatably connected with each other, the motor 1531 is connected with the cross type telescopic frame 1533 through the driving screw 1532 to control the cross type telescopic frame 1533 to stretch and retract, a sliding chute 1523 is disposed at the bottom of the movable door 152, rollers 1534 are disposed on the first cross rod and the second cross rod at the top of the cross type telescopic frame 1533, and the cross type telescopic frame 1533 is slidably connected with the sliding chute 1523 through the rollers 1534, so as to smoothly push the movable door 152 to lift.

Wherein, as shown in the orientation of fig. 2, the drive screw 1532 may extend horizontally to connect with the shaft between the crossing units, or may extend with the shaft between the first and second crossing bars. The telescopic mechanism is not limited to the structure composed of the cross telescopic 1533, the motor 1531, and the drive screw 1532 disclosed in the present embodiment.

The movable door 152 may be disposed in the primary telescopic structure in fig. 2, or may be disposed in the secondary telescopic structure as shown in fig. 3, so that the secondary telescopic structure is more space-saving when being stored. Specifically, referring to fig. 3, the movable door 152 may further include a primary door 1521 and a secondary door 1522. The second grade door 1522 slides and sets up in the inside of one-level door 1521, and the inboard top of one-level door 1521 is provided with first dog 15211, and the bottom in the outside of second grade door 1522 is provided with the second dog, and spout 1523 sets up in the bottom of second grade door 1522, and telescopic machanism 153 promotes when second grade door 1522 risen, and the second dog contacts with first dog 15211 to drive one-level door 1521 and rise, telescopic machanism 153 drives when second grade door 1522 descends, and one-level door 1521 descends under the action of gravity.

A third stop block can be further disposed at the top end of the outer side of the second door 1522, when the telescopic mechanism 153 drives the second door 1522 to descend, the telescopic mechanism can contact with the first stop block 15211 through the third stop block, so as to ensure that the first door 1521 stably descends, and avoid the situation that the first door 1521 cannot be smoothly stored due to friction between the first door 1521 and the fixed seat 151.

Referring to fig. 3, in the present embodiment, the movable rails 15 are disposed on three adjacent sides of the base 11, and the inner cavities of the fixing seats 151 on the three sides are communicated, the adjacent movable doors 152 are in sliding contact, the movable rails 15 on the three sides are in surface contact, so that the sliding stability of each movable rail can be improved, and the sealing performance of the inner processing space is good.

Referring to fig. 5, reinforcing seats are disposed between the fixing seats 151 on three sides, so as to enhance structural stability of the fixing seats 151, and the reinforcing seats extend to the bottom of the processing platform 12. The reinforcement socket in this embodiment includes a body plate 1611 and ribs 1612 distributed on the body plate 1611.

Referring to fig. 1, in the present embodiment, the fixed seat 151 is connected to the outer surface of the fixed rail 14, the movable door 152 is in sliding contact with the outer surface of the fixed rail 14, so that space and cost are saved, and the movable door 152 is stable in sliding.

The fixed rail 14 is provided with the extension board 142 on the surface, and the extension board 142 extends the inner chamber at fixing base 151, and dodge gate 152 and extension board 142 sliding contact improves dodge gate 152 sliding stability.

In the present invention, the movable rail 15 is located at one end of the sliding track of the processing platform 12, and a sliding door 141 is disposed on one side of the fixed rail 14 away from the movable rail 15. The small-size product can be loaded and unloaded by opening the sliding door 141, so that the driving cost of the movable fence switch is saved. The movable fence can be selectively opened or the sliding door 141 can be opened for loading and unloading according to the actual size of the product.

When the machining center of the invention performs loading and unloading from one side of the movable fence, the motor 1531 can be controlled to start running, and the transmission screw 1532 drives the cross expansion bracket 1533 to expand and contract, so that the movable door 152 is lifted, various frames are not required to be arranged on the movable door 152, the opening and closing space is large, and loading and unloading are convenient.

The following is a second embodiment of a battery tray light gantry machining center with a lifting door, which can solve the above technical problems. In this embodiment, the same reference numerals are used for the same structures as those in the first embodiment. The main difference between this embodiment and the first embodiment is that a manual lifting door is also provided between the fixed rail and the movable rail, thereby saving more costs.

The embodiment provides a light-duty longmen machining center of battery tray with lift gate, it includes: base 11, processing platform 12, processing module 13, fixed rail 14 and movable rail 15.

The processing platform 12 is slidably disposed on the base 11, and the processing module 13 is located above the processing platform 12. The periphery at base 11 is enclosed to fixed rail 14, and base 11 is provided with movable rail 15 in at least one side, and movable rail 15 and fixed rail 14 cooperation form around base 11 and processing module 13 and seal, and movable rail 15 includes telescopic machanism 153, fixing base 151 and dodge gate 152, and fixing base 151 is fixed to be set up in the week side of base 11, dodge gate 152 and fixing base 151 sliding connection, and telescopic machanism 153 connects the bottom at dodge gate 152, and telescopic machanism 153 is used for driving dodge gate 152 and slides and outstanding at the top of fixing base 151 to form the closure to base 11 and processing module 13.

Referring to fig. 1 and 6 in combination, in the present embodiment, the processing platform 12 is slidably disposed on the base 11, two sides adjacent to one end of the sliding track of the processing platform 12 are respectively provided with a movable rail 15, and the other side is provided with a manual lifting door 21, where the manual lifting door 21 includes a base and a lifting door body slidably connected with the base, and the structure of the manual lifting door is similar to that of the movable rail, so that the details are omitted. The front and right sides are movable fences in the orientation of fig. 1, and the left side is a manual lift gate 21. The common feeding and discharging operation can be realized, the feeding and discharging operation can be conveniently realized by completely opening the fences on two adjacent sides, the operation space is enough, and the use frequency of the manual lifting door 21 on the other side is lower, so that the manual operation structure is arranged, and the cost is lower.

The outer surface of the fixed rail 14 is provided with a reinforcing guide rail 27 which is in sliding connection with the lifting door body, so that the stability during sliding and high-position stopping can be improved.

Referring to fig. 6 and 7, the outer surface of the fixed rail 14 is provided with a locking member 22, and one side of the manual lifting door 21 is provided with a locking post 211 for connecting with the locking member 22, and the axial direction of the locking post 211 is perpendicular to the lifting direction of the manual lifting door 21.

The locking piece 22 is elastically connected to the outer surface of the fixed rail 14 in a sliding manner through an elastic piece, and under the condition that no external force exists, the connection state of the locking piece 22 and the fixed rail 14 is in an initial position, and the locking piece can slide in a retracted manner or slide in an extended manner on the basis of the initial position. The lock piece 22 one side is provided with locking piece 23, the locking piece 23 bottom is provided with the guide slope 231, locking piece 23 top is provided with joint groove 232, be connected with movable deflector 24 through torsional spring rotation on the locking piece 22, wherein the guide slope 231 slope is towards the base, the guide slope 231 is located the slip orbit of lock post 211, lock post 211 extrusion guide slope 231 makes locking piece 22 shrink inwards, thereby make lock post 211 keep away the position with locking piece 23, then the elastic component can extrude locking piece 22 and slide and reset, afterwards joint groove 232 can form the joint to the lock post 211 after the slip of locking piece 23.

The movable guide plate 24 is located above the clamping groove 232, the torsion spring is used for driving the movable guide plate 24 to be located at the limiting position, when the movable guide plate 24 is located at the limiting position, one end of the movable guide plate 24 is in limiting contact with the locking piece 23, the locking piece 23 limits the movable guide plate 24 to rotate towards the direction close to the clamping groove 232, the bottom edge of the movable guide plate 24 keeps away from the locking piece 23 in the vertical direction, and Fang Suozhu located on the movable guide plate 24 can squeeze the movable guide plate 24 to enable the locking piece 22 to extend outwards, so that the locking column 211 and the locking piece 23 slide downwards in a staggered mode.

When the lifting door body needs to be unlocked and descends, the lifting door body only needs to be pushed upwards continuously, the lock column 211 extrudes the movable guide plate 24 to rotate, when the lock column 211 and the movable guide plate 24 are separated from contact, the movable guide plate 24 rotates to a limiting position under the action of the torsion spring, at the moment, the lock column 211 is located above the movable guide plate 24 to form unlocking, at the moment, the lifting door body can extrude the movable guide plate 24 to enable the locking piece 22 to extend outwards, and the lock column 211 can be misplaced with the locking piece 23 and slide downwards. The unlocking operation is very simple and convenient.

Preferably, referring to fig. 7, a stud 25 is movably disposed on the movable door 152 of one movable rail 15 adjacent to the manual lifting door 21, a latch 26 for connecting with the stud 25 is disposed on the lifting door body, and the movable door 152 of the movable rail 15 drives the lifting door body to lift through the connection of the stud 25 and the latch 26, so that the labor is saved. When the movable door 152 is lifted to the top position, the lock column 211 is locked in the locking slot 232, i.e. can be lifted to the locking position to stop automatically.

The light gantry machining center with the lifting door for the battery tray is provided with the manual lifting door, so that the cost can be reduced, and the lifting operation of the lifting door body is very convenient.

In summary, although the present invention has been described in terms of the above embodiments, the above embodiments are not intended to limit the invention, and those skilled in the art can make various modifications and alterations without departing from the spirit and scope of the invention, so the protection scope of the invention is defined by the claims.

Claims (8)

1. A battery tray light gantry machining center with lift gate, comprising: the device comprises a base, a processing platform, a processing module, a fixed fence and a movable fence;

the processing platform is arranged on the base, the processing module is located above the processing platform, the fixed rail is arranged along the periphery of the base, at least one side of the base is provided with the movable rail, the movable rail and the fixed rail are matched to form a seal around the base and the processing module, the movable rail comprises a telescopic mechanism, a fixed seat and a movable door, the fixed seat is fixedly arranged on the periphery of the base, the movable door is in sliding connection with the fixed seat, the telescopic mechanism is connected to the bottom of the movable door, and the telescopic mechanism is used for driving the movable door to slide and protrude out of the top of the fixed seat so as to form a seal between the base and the processing module;

the processing platform is arranged on the base in a sliding manner, two sides adjacent to one end of a sliding track of the processing platform are respectively provided with one movable fence, the other side of the processing platform is provided with a manual lifting door, and the manual lifting door comprises a base and a lifting door body in sliding connection with the base;

the outer surface of the fixed fence is provided with a locking piece, one side of the manual lifting door is provided with a lock column used for being connected with the locking piece, and the axial direction of the lock column is perpendicular to the lifting direction of the manual lifting door;

the locking piece is elastically and slidably connected to the outer surface of the fixed rail through an elastic piece, a locking piece is arranged on one side of the locking piece, a guide inclined surface is arranged at the bottom end of the locking piece, a clamping groove is formed in the top of the locking piece, a movable guide plate is rotatably connected to the locking piece through a torsion spring, the guide inclined surface obliquely faces the base, the guide inclined surface is positioned on the sliding track of the lock column, the lock column extrudes the guide inclined surface to enable the locking piece to shrink inwards, so that the lock column and the locking piece keep away, and the clamping groove clamps the lock column sliding through the locking piece;

the movable guide plate is located above the clamping groove, the torsion spring is used for driving the movable guide plate to be located at a limiting position, when the movable guide plate is located at the limiting position, one end of the movable guide plate is in limiting contact with the locking piece, the locking piece limits the movable guide plate to rotate towards the direction close to the clamping groove, the bottom edge of the movable guide plate is located above the movable guide plate in a vertical direction and keeps away from the locking piece, and the lock column can squeeze the movable guide plate to enable the locking piece to extend, so that the lock column and the locking piece are staggered and slide downwards.

2. The battery tray light gantry machining center with the lifting door according to claim 1, wherein the telescopic mechanism comprises a cross type telescopic frame, a motor and a transmission screw, the cross type telescopic frame comprises a plurality of cross units, each cross unit comprises a first cross rod and a second cross rod which are connected in a rotating mode, the motor is connected with the cross type telescopic frame through the transmission screw so as to control the cross type telescopic frame to stretch and retract, a sliding groove is formed in the bottom of the movable door, and the first cross rod and the second cross rod on the top of the cross type telescopic frame are respectively provided with a roller, and the cross type telescopic frame is connected with the sliding groove in a sliding mode through the rollers.

3. The battery tray light gantry machining center with the lifting door according to claim 2, wherein the movable door comprises a primary door body and a secondary door body, the secondary door body is slidably arranged in the primary door body, a first stop block is arranged at the top of the inner side of the primary door body, a second stop block is arranged at the bottom of the outer side of the secondary door body, the sliding groove is arranged at the bottom of the secondary door body, when the telescopic mechanism pushes the secondary door body to ascend, the second stop block is in contact with the first stop block, so that the primary door body is driven to ascend, and when the telescopic mechanism drives the secondary door body to descend, the primary door body descends under the action of gravity.

4. The battery tray light gantry machining center with the lifting door according to claim 1, wherein the movable rails are arranged on three adjacent sides of the base, inner cavities of the fixed seats on the three sides are communicated, and the adjacent movable doors are in sliding contact.

5. The battery tray light gantry machining center with lift gate of claim 4, wherein a reinforcing seat is provided between the fixing seats on three sides, the reinforcing seat extending at the bottom of the machining platform.

6. The battery tray light gantry machining center with lift gate of claim 1, wherein the fixed seat is connected to the outer surface of the fixed rail, and the movable gate is in sliding contact with the outer surface of the fixed rail;

the fixed rail is characterized in that an extension plate is arranged on the outer surface of the fixed rail, the extension plate extends into an inner cavity of the fixed seat, and the movable door is in sliding contact with the extension plate.

7. The battery tray light gantry machining center with a lifting door according to claim 1, wherein a stud is movably arranged on a movable door of one movable rail adjacent to the manual lifting door, a latch for connecting with the stud is arranged on the lifting door body, and when the movable door is lifted to the topmost position, the lock post is clamped in the clamping groove.

8. The battery tray light gantry machining center with lift gate of claim 1, wherein the movable rail is located at one end of the sliding track of the machining platform, and a sliding door is provided on a side of the fixed rail away from the movable rail.