CN218430442U - Automatic screen frame storage device of flat screen printing machine - Google Patents

Abstract

The utility model relates to a field of calico printing machine screen frame deposit technique especially relates to an automatic storage device of flat screen printer screen frame, and it includes the support, places the subassembly and is used for promoting the lifting unit of screen frame, it includes the board of placing that a plurality of relative supports slide to set up to place the subassembly, it is used for accepting the screen frame to place the board, and is a plurality of place the board and divide into multiunit and multiunit relative setting, the support is provided with a plurality of drivers of placing that are used for control to place the board and slide, the drive end of placing the driver is connected in placing the board, the lifting unit sets up in the support. The screen frame of different specifications and sizes can be placed in the limited space.

Description

Automatic screen frame storage device of flat screen printing machine

Technical Field

The application relates to the field of technologies are deposited to calico printing machine screen frame, especially relates to an automatic device that stores up of printing with a flat screen machine screen frame.

Background

A printing machine is used for printing different patterns on paper or woven cloth and is mainly divided into a flat screen printing machine and a circular screen printing machine. The flat screen printing machine is a printing machine with a flat screen printing plate, and is mainly applied to printing treatment of fabrics with multiple types and relatively small quantity. The flat screen printing machine mainly presses and tightly adheres to a towel through the flat screen frame 10, then the thin round magnetic steel bar located on the inner side of the screen frame 10 rolls in a reciprocating mode under the driving of the magnetic field controller below the conveying belt, and the pigment placed in the flat screen is printed and dyed on the fabric through the hollowed-out patterns. After printing of the first colour pattern is completed, the frame 10 is raised, the tape carries the fabric to the next frame 10 and stops, printing of the second colour pattern is commenced, and the process is repeated until printing of a plurality of patterns is completed.

Thus, in the printing and dyeing of a fine screen printing machine, a variety of different frames 10 are used, and it is often necessary to store the frames 10, while facilitating the transfer and storage of the frames 10. In the prior art, workers can place the screen frame 10 on a conveyor belt and transfer the screen frame 10 to a storage position through the conveyor belt; the frame 10 is stacked on the support.

Because different products often have great difference to the size specification etc. of the net frame 10, and for the net frame 10 of different specification sizes of relatively stable placing, to the net frame 10 of different specification sizes, prior art often will adopt the support of a plurality of different specifications for the net frame 10 of different specification sizes can correspondingly place on the support of adaptation specification respectively. However, a plurality of brackets with different specifications often occupy a relatively large space, and the space utilization rate is relatively low.

Disclosure of Invention

In order to stack the screen frame of different specification and dimension in limited space, this application provides an automatic storage device of printing with a flat screen machine screen frame.

The application provides a pair of automatic device that stores up of printing with a flat screen machine screen frame adopts following technical scheme:

the utility model provides an automatic device that stores up of printing with a flat screen machine screen frame, includes the support, places the subassembly and is used for promoting the promotion subassembly of screen frame, it includes the board of placing that a plurality of relative supports slide to set up to place the subassembly, it is used for accepting the screen frame, and is a plurality of place the board and divide into multiunit and multiunit relative setting, the support is provided with a plurality of drives of placing that are used for control to place the board and slide, the drive end of placing the drive is connected in placing the board, promote the subassembly and set up in the support.

By adopting the technical scheme, when the net frame is placed, the net frame of the conveyor belt is lifted to the position below the net frame on the placing plate by the lifting assembly, the net frame on the placing plate is lifted, then the placing driver is placed to control the placing plate to shrink, then the lifting assembly controls all the net frames to ascend and be positioned above the placing plate, and then the placing driver is placed to control the placing plate to extend out and be positioned at the lower side of the net frame at the bottom so as to adapt to the net frames with different specifications; and then the lifting assembly controls the screen frames to move downwards, so that all the screen frames are placed on the plurality of placing plates to complete the stacking of the screen frames, and the screen frames with different specifications and sizes are placed in a limited space.

Optionally, the support is provided with a supporting seat corresponding to the placing plate, and the placing plate is connected to the supporting seat in a sliding manner.

Through adopting above-mentioned technical scheme, place the board and bear the load of screen frame and can pass through the supporting seat and transmit in the support, reduce because of bearing the flexible influence of load to the drive end of placing the driver.

Optionally, the placing plate penetrates through the supporting seat along the sliding direction, and the placing plate is connected to the supporting seat in a sliding manner.

Through adopting above-mentioned technical scheme, place the board and wear to locate the supporting seat for place the load that the board bore and can directly apply in the supporting seat, to placing the board and restricting when bearing load simultaneously, in order to reduce because of placing the board bearing load and lead to placing the board and take place the swing, to the influence of placing the drive end of driving piece, stability when increasing the use.

Optionally, the lifting assembly includes a lifting plate and a lifting member disposed on the support, the lifting plate is used for carrying the screen frame, a control end of the lifting member is connected to the lifting plate, and the lifting member is used for controlling the lifting plate to vertically lift and horizontally slide relative to the support.

By adopting the technical scheme, when the screen frame needs to be lifted, only the lifting piece is needed to control the lifting plate to bypass the screen frame placed on the placing plate, the lifting plate is enabled to be located at the position of the screen frame on the conveying belt, then the lifting plate is enabled to be plugged into the screen frame or connected with the lower end face of the screen frame on the conveying belt, and then the lifting piece controls the lifting plate to move upwards.

Optionally, the lifting member comprises a vertical lifter and a horizontal glider; the horizontal sliding device is arranged on the support, the vertical lifter is connected to the sliding end of the horizontal sliding device, and the lifting plate is connected to the vertical sliding end of the vertical lifter.

Through adopting above-mentioned technical scheme, when needs control lifting plate promotion screen frame, only need through vertical lifting mechanism and horizontal glider control respectively lifting plate vertical slip and horizontal glide can.

Optionally, the vertical lifter includes a first vertical lifter and a second vertical lifter, and the second vertical lifter is connected to the lifting end of the first vertical lifter; first vertical lifting mechanism connects in the end that slides of horizontal glider, lifting plate fixed connection is in the promotion end of second vertical lifting mechanism, the horizontal glider sets up in the support.

Through adopting the technical scheme, because the net frame pile up neatly, quantity is relatively more, through first vertical lifting ware and second vertical lifting ware, make the in-process that promotes the net frame, the gravity of a plurality of net frames can transmit to horizontal glider or support through first vertical lifting ware, and at the in-process that promotes, the torque that is exerted in the lifting plate production because of the net frame can transmit to horizontal glider or support through the second lifting ware, and do the balance through first vertical lifting ware, stability when optimizing the use, and reduce because of vertical slip forms too big and the net frame load is relatively great, the influence that the stability that places the net frame produced.

Optionally, the sliding end or the support of the horizontal sliding device is provided with a sliding plate, the sliding plate is formed with a sliding groove, and the second vertical lifter is arranged in the sliding groove in a sliding manner.

Through adopting above-mentioned technical scheme, the cell wall in groove that slides can further do the guide and restrict to second vertical lifting ware for the torque of second vertical lifting ware can in time be applied to horizontal sliding ware or support, stability when with further optimization use.

Optionally, the horizontal sliding device is connected with a guiding member for supporting and guiding a sliding end of the horizontal sliding device, and the guiding member is arranged on the support.

Through adopting above-mentioned technical scheme, the guide can be supported and guide the end that slides of horizontal glider for the in-process that promotes the piece and promote the net frame, the guide can be done the guide and bear the load of net frame, with the influence that reduces the load to the end that slides of horizontal glider.

Optionally, the guide member includes a guide seat and a guide rod connected to the vertical lifter, the guide seat is connected to the bracket, the guide rod penetrates through the guide seat along the length direction and is connected to the guide seat in a sliding manner, a connecting plate is fixedly connected to an end of the guide rod, and the connecting plate is connected to a sliding end of the horizontal slider.

Through adopting above-mentioned technical scheme, the guide holder can do the support to vertical lifting mechanism through the guide bar, is used for transmitting the power of horizontal glider through connecting plate and guide bar simultaneously to the horizontal slip of control vertical lifting mechanism.

Optionally, the support shaping has the mounting groove that a plurality of levels extend, the mounting groove is provided with a plurality of installed parts, the installed part includes installation piece and threaded connection in the construction bolt of installation piece, the installation piece card is established and is slided and connect in the mounting groove, place driver and lifting unit and install in the support through the construction bolt of difference respectively.

Through adopting above-mentioned technical scheme, when driver and lifting unit were placed in the installation, only need with the installation piece along the mounting groove sideslip to the mounted position of support, then will place driver or lifting unit through mounting bolt fasten in the support can.

In summary, the present application includes at least one of the following beneficial technical effects:

1. when the net frames are placed, the net frames of the conveyor belt are lifted to the position below the net frames on the placing plate by the lifting assembly, the net frames on the placing plate are lifted, then the placing driver is used for controlling the placing plate to shrink, then the lifting assembly controls all the net frames to ascend and be positioned above the placing plate, and then the placing driver is used for controlling the placing plate to extend out and be positioned at the lower side of the net frame at the lowest part so as to adapt to the net frames with different specifications; then the lifting assembly controls the screen frames to move downwards, so that all the screen frames are placed on the plurality of placing plates to complete the stacking of the screen frames, and the screen frames with different specifications and sizes are placed in a limited space;

2. in the process of placing the net frame, the guide piece and the support piece can bear the load from the net frame, the load directly borne by the horizontal glider and the vertical glider is reduced, and the stability in use is further improved.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present application.

Fig. 2 is an enlarged schematic view of a portion a of fig. 1.

Fig. 3 is an enlarged schematic view of a portion B of fig. 1.

Fig. 4 is an enlarged schematic view of a portion C of fig. 1.

Description of the reference numerals: 1. a support; 10. a screen frame; 11. mounting grooves; 12. a mounting member; 121. mounting blocks; 122. installing a bolt; 13. a frame body; 2. placing the component; 21. placing the plate; 211. a connecting portion; 212. a bearing part; 22. placing a driver; 23. a supporting base; 231. a support hole; 232. a support plate; 3. a lifting assembly; 31. a lifting plate; 32. a lifting member; 321. a vertical lifter; 3211. a first vertical riser; 3212. a second vertical riser; 322. a horizontal glider; 33. a slide plate; 331. a sliding groove; 332. a first plate body; 333. a second plate body; 34. a guide member; 341. a guide seat; 342. a guide rod; 343. a connecting plate; 344. and (7) mounting the plate.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses automatic device that stores up of printing with a flat screen machine screen frame. Referring to fig. 1, the automatic screen frame storage device of the flat screen printing machine comprises a support 1, a placing component 2 and a lifting component 3, wherein the support 1 is used for installing the placing component 2 and the lifting component 3. And the support 1 is a U-shaped truss-like structure or comprises a plurality of support bodies 13, in the embodiment of the present application, the support 1 comprises two support bodies 13, and a channel for conveying the screen frame 10 is formed between the two support bodies 13. Wherein the placing component 2 is used for placing the net frame 10, and the lifting component 3 is used for lifting the net frame 10 on the conveyor belt or placing the net frame 10 of the placing component 2 on the conveyor belt.

Referring to fig. 1 and 2, a plurality of placing plates 21 and placing drivers 22 of the placing assembly 2 are arranged, the placing drivers 22 are arranged in a one-to-one correspondence manner, the plurality of placing plates 21 are divided into two groups, and the two groups of placing plates 21 are respectively arranged on the two rack bodies 13. Wherein the placing driver 22 is a cylinder, a hydraulic cylinder, an electric pushing cylinder or a linear motor, in this embodiment, a cylinder. Place board 21 and slide the setting through supporting seat 23 relative support body 13, supporting seat 23 fixed connection is in support body 13, places board 21 and wears to establish and slide and connect in supporting seat 23.

Referring to fig. 1 and 2, the placing plate 21 includes a connecting portion 211 having a cylindrical shape and a bearing portion 212 having a plate shape. Supporting seat 23 is provided with and is the support hole 231 of horizontal extension, and connecting portion 211 wears to establish and adapts to support hole 231, and connecting portion 211 fixed connection in the drive end of placing driver 22, and bearing portion 212 fixed connection deviates from the one end of placing driver 22 that is connected in connecting portion 211, and bearing portion 212 is the level setting. The sliding directions of the two sets of placing plates 21 are both horizontal and perpendicular to the distribution directions of the two frame bodies 13, and the bearing portion 212 is located on one side of the connecting portion 211 facing the centers of the two frame bodies 13.

The top fixedly connected with backup pad 232 of supporting seat 23, backup pad 232 are the platelike structure of L shape, and the vertical portion fixed connection of backup pad 232 is in support body 13, and the kink inboard of backup pad 232 is equipped with the stiffening rib to be used for increasing the intensity of backup pad 232, and connect supporting seat 23 in support body 13.

When the conveyor belt is used for conveying the screen frame 10 between the two frame bodies 13, the lifting assembly 3 is only required to lift the screen frame 10 of the conveyor belt, and the placing driver 22 controls the connection part 211 to contract in the process of lifting the screen frame 10 so as to avoid interference with lifting of the screen frame 10; when the net frame 10 is lifted to the upper side of the bearing portion 212, the placing driver 22 controls the connecting portion 211 to extend relative to the supporting base 23, so that the bearing portion 212 is located below the net frame 10 at the lowest side, and when the net frames 10 of different specifications are borne, the net frames 10 can still be borne by the bearing portions 212 oppositely arranged on the two frame bodies 13, and finally the lifting assembly 3 places the net frames 10 on the bearing portions 212 of the plurality of placing plates 21, so that the net frames 10 of different specifications and sizes are placed. In addition, when the net frame 10 is placed on the placing plate 21, the gravity of the net frame 10 is transmitted to the supporting base 23 through the connecting portion 211 and finally transmitted to the frame body 13, so that the influence of the gravity of the net frame 10 on the driving end of the placing driver 22 is reduced, the possibility that the placing driver 22 is influenced by the load bearing of heavy objects is reduced, and the stability in use is optimized.

Of course, in other embodiments, the sliding direction of the placing plate 21 may be inclined, and at this time, the sliding of the placing plate 21 may be performed, so that the edges of the net frames 10 are lapped on different positions of the bearing parts 212, and the angles of the net frames 10 directly placed on the bearing parts 212 may be adjusted, so that when a plurality of net frames 10 are stacked, the overall verticality may be maintained, and the placing stability may be optimized. In addition, the supporting seat 23 may also be provided with a sliding groove extending along the sliding direction of the placing plate 21, the sliding groove is a T-shaped groove or a dovetail groove, and the connecting portion 211 is clamped and adapted to the sliding groove, so as to support and guide the connecting portion 211 during sliding.

Referring to fig. 1 and 3, further, the lifting assemblies 3 are provided in a plurality of numbers, the lifting assemblies 3 are divided into two groups, and the two groups of lifting assemblies 3 are respectively disposed on the two frame bodies 13. The lifting assembly 3 comprises a lifting plate 31 and a lifting member 32 disposed on the frame body 13, the lifting plate 31 is connected to a lifting end of the lifting member 32, and the lifting member 32 is used for controlling the lifting plate 31 to vertically lift and horizontally slide relative to the frame body 13. Wherein, the placing plate 21 and the lifting plate 31 are arranged in a staggered manner, so that the vertical projections of the placing plate 21 and the lifting plate 31 do not interfere with each other.

The lifting member 32 includes a vertical lifter 321 and a horizontal glider 322, the horizontal glider 322 is connected to the frame body 13, and the vertical lifter 321 is connected to the sliding end of the horizontal glider 322 through the guide member 34. Wherein, the same horizontal glider 322 is correspondingly provided with two vertically distributed guiding pieces 34, and the horizontal glider 322 is located between the two guiding pieces 34.

Referring to fig. 3 and 4, the guiding element 34 includes a guiding seat 341 and a guiding rod 342, the guiding seat 341 is fixedly connected to the frame body 13, the guiding rod 342 passes through the guiding seat 341 along the sliding direction of the sliding end of the horizontal slider 322, and the guiding rod 342 is connected with the guiding rod 342 in a sliding manner. The two guide rods 342 of the two corresponding guides 34 of the same horizontal glider 322 are fixedly connected with a connecting plate 343, the connecting plate 343 is vertically arranged, and the connecting plate 343 is located on one side of the connected frame body 13 deviating from the other frame body 13.

The two guide rods 342 corresponding to the same horizontal glider 322 are further fixedly connected with an installation plate 344, the installation plate 344 is vertically arranged, and the installation plate 344 is located on one side of the two frame bodies 13 facing each other. The vertical lifter 321 is provided to the mounting plate 344.

Referring to fig. 3 and 4, the vertical lift 321 includes a first vertical lift 3211 and a second vertical lift 3212, and the second vertical lift 3212 is fixedly connected to a lifting end of the first vertical lift 3211. And the first vertical lifter 3211, the second vertical lifter 3212 and the horizontal glider 322 are air cylinders, hydraulic cylinders, electric pushing cylinders or linear motors, preferably air cylinders. First vertical riser 3211 is located the top of second vertical riser 3212, and the slip direction of first vertical riser 3211 and the lift end of second vertical riser 3212 is vertical setting, and second vertical riser 3212 slides and connects in the one side that mounting panel 344 deviates from corresponding support body 13.

The lifting plate 31 is in an L-shaped plate structure, a vertical portion of the lifting plate 31 is fixedly connected to a lifting end of the second vertical lifter 3212, and a horizontal portion of the lifting plate 31 is used for carrying the screen frame 10 and is arranged horizontally. Of course, the lifting plate 31 may also be directly of horizontal plate-like construction.

When the screen frame 10 of the conveyor belt needs to be placed on the placing plates 21, only the first vertical lifter 3211 is needed to control the second vertical lifter 3212 to move downwards, and the second vertical lifter 3212 is used to control the lifting plate 31 to move downwards, so that the horizontal portion of the lifting plate 31 can be inserted into the middle or the bottom of the screen frame 10, then the horizontal slider 322 controls the connecting plate 343 to slide towards the middle position of the two frame bodies 13, and the guide rod 342 drives the mounting plate 344 to slide towards the middle position of the two frame bodies 13, so that the screen frame 10 on the conveyor belt can be borne on the horizontal portion of the lifting plate 31; then the lifting ends of the first vertical lifter 3211 and the second vertical lifter 3212 are sequentially contracted, so that the lifting plate 31 slides upwards, the net frame 10 is driven to be located above the placing plate 21, then the placing plate 21 extends out of the supporting seat 23, and thereafter the lifting end of the first vertical lifter 3211 moves downwards, so that the net frame 10 is placed on the placing plate 21. And in the process of lifting the net frame 10, the first vertical lifter 3211 is matched with the second vertical lifter 3212, so that the load of the net frame 10 can be respectively and sequentially borne by the first vertical lifter 3211 and the second vertical lifter 3212, and compared with the case that only one air cylinder is adopted, the possibility of swinging of the telescopic end of the air cylinder due to the bearing of the load can be effectively reduced, and the use stability can be optimized.

Of course, in other embodiments, the lifting assembly 3 may also include a robot arm and a pneumatic clamping jaw for clamping the screen frame 10, the pneumatic clamping jaw being connected to a movable end of the robot arm, the position of the pneumatic clamping jaw being controlled by the robot arm, and a plurality of screen frames 10 being placed on the placing plate 21. Or in other embodiments, the mounting plate 344 is fixedly connected to the frame body 13 such that the first vertical riser 3211 is connected to the bracket 1 by the mounting plate 344; and the horizontal glider 322 and the guide seat 341 are both fixedly connected to the lifting end of the second vertical lifter 3212. Or in other embodiments, the guide 34 is a linear slide rail, and the mounting plate 344 and the connecting plate 343 are connected to the slide rail of the guide 34, and the sliding end of the guide 34 is connected to the lifting end of the second vertical lifter 3212 or the frame body 13.

Referring to fig. 3 and 4, further, since the second vertical lifter 3212 is vertically slidably coupled to the mounting plate 344, in order to further increase the stability of the coupling of the second vertical lifter 3212 to the mounting plate 344, the mounting plate 344 is provided with a sliding plate 33, such that the sliding plate 33 is coupled to the sliding end of the horizontal slider 322 or the frame body 13 through the mounting plate 344 and the guide rod 342.

The sliding plate 33 includes a first plate body 332 and two second plate bodies 333 perpendicular to the first plate body 332, the first plate body 332 is fixedly connected to the side edge of the second plate body 333 through bolts, the first plate body 332 is fixedly connected to the mounting plate 344, a sliding groove 331 for guiding the sliding of the second vertical lifter 3212 is formed between the two second plate bodies 333, and the second vertical lifter 3212 is clamped and slidably connected in the sliding groove 331 so as to be used for limiting and guiding the second vertical lifter 3212.

Of course, the sliding plate 33 may also be a U-shaped plate structure, the recessed portion of the sliding plate 33 is the sliding groove 331, and the opening edge of the sliding plate 33 is fixedly connected to the mounting plate 344.

Referring to fig. 3 and 4, in addition, since the frame body 13 is used for installing the placing assembly 2 and the lifting assembly 3, and the specification of the net frame 10 is different, the positions of the placing assembly 2 and the lifting assembly 3 are often required to be adjusted during installation so as to adapt to the specification of the net frame 10. Thus, the frame body 13 is provided with a number of mounting members 12 for mounting the placing driver 22, the horizontal glider 322, the guide 341 and the support base 23.

Specifically, the mounting members 12 are divided into a plurality of groups, and the same group includes four mounting members 12, and the placing driver 22, the horizontal slider 322, the guiding seat 341 and the supporting seat 23 are respectively provided with different groups of mounting members 12.

Referring to fig. 3 and 4, a plurality of horizontally extending mounting grooves 11 are formed in the frame edge of the frame body 13, and the mounting grooves 11 are dovetail grooves or T-shaped grooves. The mounting member 12 includes a mounting block 121 and a mounting bolt 122 threadedly coupled to the mounting block 121, and the mounting block 121 is engaged with and fitted to an inner wall of the mounting groove 11. The mounting bolt 122 is disposed through the placing driver 22, the horizontal slider 322, the guiding seat 341 or the supporting seat 23, so as to fasten the placing driver 22, the horizontal slider 322, the guiding seat 341 and the supporting seat 23 to the frame body 13.

When the driver 22, the horizontal glider 322, the guide seat 341 and the support seat 23 are installed, the installation positions of the driver 22, the horizontal glider 322, the guide seat 341 and the support seat 23 can be adjusted to adapt to the specification and the size of the screen frame by the sliding of the installation block 121 along the installation groove 11. Meanwhile, when the installation is carried out, a plurality of corresponding installation holes and the like do not need to be formed in the frame body 13, and the convenience of installation can be optimized.

The implementation principle of the embodiment of the application is as follows: when the placing plate 21 has placed the screen frame 10 and needs to place other screen frames 10, only the first vertical lift 3211 and the second vertical lift 3212 need to be sequentially extended and control the lifting plate 31 to move downwards, so that the lifting plate 31 is correspondingly located at the position of the screen frame 10 on the conveyor belt, and then the horizontal slider 322 controls the mounting plate 344 to slide towards the screen frame 10 through the guide member 34, so that the lifting plate 31 can accept the screen frame 10 on the conveyor belt.

The lifting end of the first vertical lifter 3211 or the second vertical lifter 3212 is retracted so that the screen frame 10 on the lifting plate 31 stops after abutting against the screen frame 10 on the placing plate 21, and the placing driver 22 controls the placing plate 21 to retract; so that the frame 10 on the placing plate 21 is stacked on the frame 10 on the lifting plate 31.

The placing driver 22 controls the placing plate 21 to be detached from the net frames 10, and then the lifting end of the first vertical lifter 3211 or the second vertical lifter 3212 is moved upward again so that the plurality of net frames 10 are located above the placing plate 21; the placing driver 22 controls the placing plate 21 to extend out and be located below all the screen frames 10, and finally the lifting end of the first vertical lifter 3211 or the second vertical lifter 3212 moves downwards, so that all the screen frames 10 are placed on the placing plate 21, and meanwhile, the horizontal glider 322 controls the lifting plate 31 to shrink again.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides an automatic device that stores up of printing with a flat screen machine screen frame which characterized in that: including support (1), place subassembly (2) and be used for promoting lifting unit (3) of screen frame, place subassembly (2) including a plurality of relative support (1) slide the setting place board (21), place board (21) and be used for accepting screen frame (10), it is a plurality of place board (21) divide into multiunit and multiunit relative setting, support (1) is provided with a plurality of driver (22) of placing that are used for control to place board (21) and slide, the drive end of placing driver (22) is connected in placing board (21), lifting unit (3) set up in support (1).

2. The automatic screen frame storing device of a flat screen printing machine according to claim 1, characterized in that: the support (1) is provided with a supporting seat (23) corresponding to the placing plate (21), and the placing plate (21) is connected to the supporting seat (23) in a sliding mode.

3. The automatic screen frame storing device of a flat screen printing machine according to claim 2, characterized in that: the placing plate (21) penetrates through the supporting seat (23) along the sliding direction, and the placing plate (21) is connected to the supporting seat (23) in a sliding mode.

4. The automatic storing device of the screen frame of the flat screen printing machine according to claim 1, characterized in that: the lifting assembly (3) comprises a lifting plate (31) and a lifting piece (32) arranged on the support (1), wherein the lifting plate (31) is used for bearing the screen frame (10), the control end of the lifting piece (32) is connected to the lifting plate (31), and the lifting piece (32) is used for controlling the lifting plate (31) to vertically lift and horizontally slide relative to the support (1).

5. The automatic screen frame storing device of a flat screen printing machine according to claim 4, characterized in that: promote piece (32) and include vertical riser (321) and horizontal ware (322) of sliding, horizontal ware (322) of sliding set up in support (1), vertical riser (321) are connected in the end of sliding of horizontal ware (322), promote board (31) and connect in the vertical end of sliding of vertical riser (321).

6. The automatic screen frame storing device of a flat screen printing machine according to claim 5, characterized in that: the vertical lifter (321) comprises a first vertical lifter (3211) and a second vertical lifter (3212), and the second vertical lifter (3212) is connected to a lifting end of the first vertical lifter (3211); the first vertical lifter (3211) is connected to the sliding end of the horizontal shifter (322), the lifting plate (31) is fixedly connected to the lifting end of the second vertical lifter (3212), and the horizontal shifter (322) is arranged on the bracket (1).

7. The automatic screen frame storing device of a flat screen printing machine according to claim 6, characterized in that: the horizontal sliding device is characterized in that a sliding end of the horizontal sliding device (322) or the support (1) is provided with a sliding plate (33), a sliding groove (331) is formed in the sliding plate (33), and the second vertical lifting device (3212) is arranged in the sliding groove (331) in a sliding mode.

8. The automatic storage device of the screen frame of the flat screen printing machine according to claim 5, characterized in that: the horizontal glider (322) is connected with a guide piece (34) used for supporting and guiding the sliding end of the horizontal glider (322), and the guide piece (34) is arranged on the support (1).

9. The automatic storage device of the screen frame of the flat screen printing machine according to claim 8, characterized in that: the guide piece (34) comprises a guide seat (341) and a guide rod (342) connected to the vertical lifter (321), the guide seat (341) is connected to the support (1), the guide rod (342) penetrates through the guide seat (341) along the length direction and is connected to the guide seat (341) in a sliding mode, a connecting plate (343) is fixedly connected to the end portion of the guide rod (342), and the connecting plate (343) is connected to the sliding end of the horizontal slider (322).

10. The automatic storing device of the screen frame of the flat screen printing machine according to claim 1, characterized in that: support (1) shaping has mounting groove (11) that a plurality of levels extend, mounting groove (11) are provided with a plurality of installed parts (12), installed part (12) are including installation piece (121) and threaded connection in mounting bolt (122) of installation piece (121), installation piece (121) card is established and is slided and connect in mounting groove (11), it installs in support (1) through different mounting bolt (122) respectively to place driver (22) and lifting means (3).

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