CN211441589U - Double-workbench side wall hanging mechanism and spray printing equipment - Google Patents

Abstract

The utility model discloses a two workstation lateral walls hang mechanism, include: y is to slide subassembly, Z to base, Z to slide subassembly, locate Z to two sets of workstation installation modules on the slide subassembly and locate the print table face on the workstation installation module, and two sets of workstation installation modules set up side by side at Z to the top of slide subassembly, and every set of workstation installation module is equipped with the print table installation piece, is equipped with a print table face on every print table installation piece. The double-workbench side wall suspension mechanism of the utility model can move in the Y direction and the Z direction, and has higher degree of freedom and more flexibility compared with the traditional mechanism which can only horizontally slide; one spout seal equipment and be equipped with two sets of two workstation lateral walls and hang the mechanism, two sets of two workstation lateral walls hang the mechanism and can be in equipment the wheel flow function, have four printing table boards altogether, can process four sets of products simultaneously, greatly improved the work efficiency of equipment, can satisfy the big automated production in batches of product high-efficiently.

Description

Double-workbench side wall hanging mechanism and spray printing equipment

Technical Field

The utility model relates to a spout seal equipment technical field, especially relate to a two workstation lateral walls hang mechanism and spout seal equipment.

Background

The jet printing equipment has three main functional mechanisms, namely a printing table, an alignment device and a printing trolley, wherein the printing table is a workbench for bearing printing media by the jet printing equipment. Among the prior art, the print platform generally locates aligning device and printing dolly below through bearing structure horizontal slip, and this kind of spouts seal equipment generally spouts the seal machine for single workstation, that is to say only has a print platform to move in equipment, carries out the work flow of blowing, counterpoint, printing, receipts material in proper order, leads to spouting the work efficiency of seal machine not high like this, and the time of waiting between preceding process and the process at the back is longer. The single-workbench jet printing machine is generally only suitable for small-batch production and cannot meet the requirement of large-batch production.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the not enough of prior art, providing a two workstation lateral walls hang mechanism and spout seal equipment, improve the work efficiency who spouts seal equipment greatly.

The technical scheme of the utility model as follows: there is provided a dual stage sidewall suspension mechanism comprising: y to the slide subassembly, locate along the gliding Y of Y axle direction Y to slide subassembly on and with Y slides and locates to slide subassembly vertically Z to the base, along Z axle direction Z to the base on to Z to the slide subassembly, locate Z to two sets of workstation installation modules on the slide subassembly and locate print the mesa on the workstation installation module, two sets of workstation installation modules set up side by side at Z to the top of slide subassembly, and every set of workstation installation module is equipped with the printing table installation piece, is equipped with a print the mesa on every printing table installation piece.

Further, the Z-slide assembly comprises: locate Z is to four Z that just are parallel to each other on the base to the guide rail, locate first slider on every Z to the guide rail, locate Z on the first slider is to the slide, locate Z is to lead screw motor element on the base and locate spacing subassembly on the Z is to the base, workstation installation module is located Z is to on the slide, lead screw motor element includes: the transmission screw rod is arranged in parallel with the Z-direction guide rail, the nut is arranged on the transmission screw rod and connected with the Z-direction sliding seat, the fixing seat is arranged at one end of the transmission screw rod, the supporting seat is arranged at the other end of the transmission screw rod, the first synchronizing wheel is arranged at one end of the transmission screw rod, the motor installation assembly is arranged on the Z-direction base, the motor is arranged on the motor installation assembly, the second synchronizing wheel is connected with the motor, and the synchronous belt is connected with the first synchronizing wheel and the second synchronizing wheel.

Further, the motor mounting assembly includes: the installation is fixed in Z is to motor mounting panel on the base, locate position control device on the motor mounting panel, locate motor fixing base on the position control device, with the shaft coupling that the axle of motor stretches to be connected and with the driven shaft of coupling joint, driven shaft one end is connected with the second synchronizing wheel, the motor installation is fixed on the motor fixing base.

Further, the position adjustment device includes: locate bottom plate on the motor mounting panel and locate adjusting screw on the bottom plate, be equipped with square through hole on the bottom plate, motor fixing base part is arranged in the square through hole, square through hole's lateral wall is equipped with the screw hole, and adjusting screw passes the screw hole with the motor fixing base is connected, adjusting screw's length direction with the length direction of hold-in range is parallel.

Further, spacing subassembly includes: locate Z is to the lower spacing piece of guide rail bottom, locate buffer on the spacing piece down, locate Z is to the last spacing piece on guide rail top and locate buffer on the last spacing piece is glued.

Further, the Y-slide assembly comprises: the second slider and locate Y on the second slider are to the base.

Further, the printing table mounting block is fixed and is fixedly connected with the Z-direction sliding seat assembly.

Further, the printing table mounting block is of a rotary type and can be rotatably arranged on the Z-direction sliding seat assembly.

The utility model also provides a spout seal equipment, including two sets as above the two workstation lateral walls hang the mechanism, hang the mechanism for first two workstation lateral walls respectively and hang the mechanism and the two workstation lateral walls of second hang the mechanism, still include left board, locate left side board offside and the right board parallel with left board, first two workstation lateral walls hang the Y of mechanism and locate to the slide subassembly on the board of a left side, the Y that the two workstation lateral walls of second hung the mechanism locates to the slide subassembly on the board of the right side.

By adopting the scheme, the utility model discloses following beneficial effect has:

(1) the double-workbench side wall suspension mechanism of the utility model can move in the Y direction and the Z direction, and has higher degree of freedom and more flexibility compared with the traditional mechanism which can only horizontally slide;

(2) the utility model discloses a seal equipment is spouted and is equipped with two sets of two workstation lateral walls and hang the mechanism, and two sets of two workstation lateral walls hang the mechanism and can be in equipment the wheel flow function, and four printing table boards altogether can four sets of products of simultaneous processing, have greatly improved the work efficiency of equipment, can satisfy the big automated production in batches of product high-efficiently.

Drawings

Fig. 1 is the overall structure schematic diagram of the double-workbench side wall suspension mechanism of the present invention.

Fig. 2 is the schematic structural diagram of the double-workbench side wall suspension mechanism of the utility model with the printing table surface omitted.

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

Fig. 4 is a schematic structural diagram of the jet printing apparatus of the present invention.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.

Referring to fig. 1 and 2, the present invention provides a double-workbench side wall suspension mechanism, which includes: y along Y axle direction gliding Y to slide subassembly 1, locate Y to slide subassembly 1 go up and with Y slides and locates to slide subassembly 1 vertically Z to base 2, along Z axle direction Z to slide subassembly 3 on the base 2, locate Z is to two sets of workstation installation modules 4 on the slide subassembly 3 and locate print table face 5 on the workstation installation module 4, two sets of workstation installation modules 4 set up side by side at Z to the top of slide subassembly 3, and every set of workstation installation module 4 is equipped with print table installation piece 41, is equipped with one on every print table installation piece 41 and prints mesa 5, and consequently every set of two workstation lateral walls hangs the mechanism and is equipped with two print table faces 5 altogether.

The Z-slide assembly 3 comprises: the workbench comprises four Z-direction guide rails 31 which are arranged on the Z-direction base 2 and are parallel to each other, a first sliding block 32 arranged on each Z-direction guide rail 31, a Z-direction sliding seat 33 arranged on the first sliding block 32, a lead screw motor assembly 34 arranged on the Z-direction base 2, and a limiting assembly 35 arranged on the Z-direction base 2, wherein the workbench installation module 4 is arranged on the Z-direction sliding seat 33. The lead screw motor assembly 34 drives the Z-slide 33 to slide up and down on the Z-guide rail 31.

Referring to fig. 1 to 3, the lead screw motor assembly 34 includes: a transmission screw 341 arranged in parallel with the Z-guide rail 31, a nut 342 arranged on the transmission screw 341 and connected to the Z-slide carriage 33, a fixing seat 343 arranged at one end of the transmission screw 341, a supporting seat 344 arranged at the other end of the transmission screw 341, a first synchronizing wheel 345 arranged at one end of the transmission screw 341, a motor mounting assembly 346 arranged on the Z-base 2, a motor 347 arranged on the motor mounting assembly 346, a second synchronizing wheel 348 connected to the motor 347, and a synchronizing belt 349 connecting the first synchronizing wheel 345 and the second synchronizing wheel 348. The fixing seat 343 and the supporting seat 344 are used for fixing two ends of the transmission screw 341, the motor 347 drives the second synchronizing wheel 348 to rotate, the second synchronizing wheel 348 drives the synchronizing belt 349 to rotate, the synchronizing belt 349 drives the first synchronizing wheel 345 to rotate, the first synchronizing wheel 345 rotates to drive the transmission screw 341 to rotate, and the nut 342 slides up and down on the transmission screw 341 so as to drive the Z-direction sliding seat 33 fixed on the nut 342 to move up and down.

The motor mounting assembly 346 includes: the driving device comprises a motor mounting plate 3461 fixed on the Z-direction base 2, a position adjusting device arranged on the motor mounting plate 3461, a motor fixing seat 3462 arranged on the position adjusting device, a coupling 3463 connected with the shaft extension of the motor 347 and a driven shaft connected with the coupling 3463, wherein one end of the driven shaft is connected with a second synchronous wheel 348, and the motor 347 is fixed on the motor fixing seat 3462.

The position adjustment device includes: a base plate 3464 provided on the motor mounting plate 3461, and an adjusting screw 3465 provided on the base plate 3464. The bottom plate 3464 is provided with a square through hole 3466, the motor fixing seat 3462 is partially disposed in the square through hole 3466, a threaded hole is disposed on a side wall of the square through hole 3466, an adjusting screw 3465 penetrates through the threaded hole to be connected with the motor fixing seat 3462, and the length direction of the adjusting screw 3465 is parallel to the length direction of the synchronous belt 349. The position of the motor mounting plate 3461 is adjusted by twisting the adjusting screw 3465, so that the distance between the first synchronizing wheel 345 and the second synchronizing wheel 348 is changed, the tightness of the synchronous belt 349 is adjusted by changing the distance between the first synchronizing wheel 345 and the second synchronizing wheel 348, and stable operation of the first synchronizing wheel 345 and the second synchronizing wheel 348 is ensured.

The position limiting assembly 35 comprises: a lower stopper 351 provided at the bottom end of the Z-guide rail 31, a buffer 352 provided on the lower stopper 351, an upper stopper 353 provided at the top end of the Z-guide rail 31, and a buffer rubber 354 provided on the upper stopper 353. The Z-direction sliding seat component 3 is buffered in the up-and-down movement through the limiting component 35, and the impact force in the up-and-down movement is reduced. In this embodiment, be equipped with the protection casing at the top of Z to slide subassembly 3, carry out oil, water protection and prevent that other foreign matters from falling into to the part of installing on Z to slide subassembly 3, the normal operating of guarantee driving medium.

The Y-slide assembly 1 comprises: a second slide block 11 and a Y-direction base 12 arranged on the second slide block 11. The upper end of the Z-direction base 2 is fixedly connected with the side surface of the Y-direction base 12, and the two form an L-shaped structure. The second slider 11 slides along the Y-axis direction, thereby driving the Z-direction base 2 to slide along the Y-axis direction.

The printing table mounting block 41 is divided into a fixed type and a rotary type. The printing table mounting block 41 can be fixedly connected with the Z-direction sliding seat 33, and the printing table mounting block 41 can be rotatably arranged on the Z-direction sliding seat 33 according to functional requirements. The electric control cable and the air pipe of the printing table are fixed on the side surface of the Z-direction sliding base component through a tank chain.

Referring to fig. 4, the present invention further provides a spray printing apparatus, which includes two sets of the above-mentioned dual-workbench side wall hanging mechanisms, namely, a first dual-workbench side wall hanging mechanism and a second dual-workbench side wall hanging mechanism, and further includes a left machine 100, and a right machine 200 disposed at the opposite side of the left machine 100 and parallel to the left machine 100. The Y-direction sliding seat component of the first double-workbench side wall suspension mechanism is arranged on the inner side surface of the left machine table 100, and the Y-direction sliding seat component of the second double-workbench side wall suspension mechanism is arranged on the inner side surface of the right machine table 200.

The first printing table side wall hanging mechanism and the second printing table side wall hanging mechanism can move along the Y-axis direction and the Z-axis direction, the first printing table side wall hanging mechanism and the second printing table side wall hanging mechanism can be completely overlapped in the Z-axis direction, and the two sets of printing table mechanisms can alternately operate in the equipment in a circulating manner. Because the X coordinate of any position of two sets of printing table mechanisms on the equipment is unchangeable, the coordinate of the printing table mechanism on the Y axis and the Z axis can be changed flexibly, so one equipment only needs one set of aligning device and jet printing trolley mechanism to simultaneously correspond to the two sets of printing table mechanisms, each set of printing table mechanism can print two sets of products, the jet printing equipment can print four sets of products at one time, and the operating parameters of the aligning device and the jet printing trolley mechanism do not need to be changed, so that the operating efficiency of each jet printing equipment is greatly improved.

To sum up, the utility model discloses following beneficial effect has:

(1) the double-workbench side wall suspension mechanism of the utility model can move in the Y direction and the Z direction, and has higher degree of freedom and more flexibility compared with the traditional mechanism which can only horizontally slide;

(2) the utility model discloses a seal equipment is spouted and is equipped with two sets of two workstation lateral walls and hang the mechanism, and two sets of two workstation lateral walls hang the mechanism and can be in equipment the wheel flow function, and four printing table boards altogether can four sets of products of simultaneous processing, have greatly improved the work efficiency of equipment, can satisfy the big automated production in batches of product high-efficiently.

The above description is only exemplary of the present invention and should not be construed as limiting the present invention, and any modifications, equivalents and improvements made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (9)

1. The utility model provides a two workstation lateral wall suspension mechanism which characterized in that includes: y to the slide subassembly, locate along the gliding Y of Y axle direction Y to slide subassembly on and with Y slides and locates to slide subassembly vertically Z to the base, along Z axle direction Z to the base on to Z to the slide subassembly, locate Z to two sets of workstation installation modules on the slide subassembly and locate print the mesa on the workstation installation module, two sets of workstation installation modules set up side by side at Z to the top of slide subassembly, and every set of workstation installation module is equipped with the printing table installation piece, is equipped with a print the mesa on every printing table installation piece.

2. The dual stage side wall suspension mechanism of claim 1 wherein said Z-slide assembly comprises: locate Z is to four Z that just are parallel to each other on the base to the guide rail, locate first slider on every Z to the guide rail, locate Z on the first slider is to the slide, locate Z is to lead screw motor element on the base and locate spacing subassembly on the Z is to the base, workstation installation module is located Z is to on the slide, lead screw motor element includes: the transmission screw rod is arranged in parallel with the Z-direction guide rail, the nut is arranged on the transmission screw rod and connected with the Z-direction sliding seat, the fixing seat is arranged at one end of the transmission screw rod, the supporting seat is arranged at the other end of the transmission screw rod, the first synchronizing wheel is arranged at one end of the transmission screw rod, the motor installation assembly is arranged on the Z-direction base, the motor is arranged on the motor installation assembly, the second synchronizing wheel is connected with the motor, and the synchronous belt is connected with the first synchronizing wheel and the second synchronizing wheel.

3. The dual stage side wall suspension mechanism of claim 2 wherein the motor mounting assembly comprises: the installation is fixed in Z is to motor mounting panel on the base, locate position control device on the motor mounting panel, locate motor fixing base on the position control device, with the shaft coupling that the axle of motor stretches to be connected and with the driven shaft of coupling joint, driven shaft one end is connected with the second synchronizing wheel, the motor installation is fixed on the motor fixing base.

4. The dual stage side wall suspension mechanism of claim 3 wherein said position adjustment means comprises: locate bottom plate on the motor mounting panel and locate adjusting screw on the bottom plate, be equipped with square through hole on the bottom plate, motor fixing base part is arranged in the square through hole, square through hole's lateral wall is equipped with the screw hole, and adjusting screw passes the screw hole with the motor fixing base is connected, adjusting screw's length direction with the length direction of hold-in range is parallel.

5. The dual stage side wall suspension mechanism of claim 2 wherein the stop assembly comprises: locate Z is to the lower spacing piece of guide rail bottom, locate buffer on the spacing piece down, locate Z is to the last spacing piece on guide rail top and locate buffer on the last spacing piece is glued.

6. The dual stage side wall suspension mechanism of claim 1 wherein said Y-slide assembly comprises: the second slider and locate Y on the second slider are to the base.

7. The dual stage sidewall suspension mechanism of claim 1 wherein the print stage mounting block is stationary and is fixedly attached to the Z carriage assembly.

8. The dual stage side wall suspension mechanism of claim 1 wherein the print stage mounting block is of a rotary type and is rotatably mounted on the Z slide assembly.

9. A spray printing device, comprising two sets of double-workbench side wall hanging mechanisms according to any one of claims 1 to 8, namely a first double-workbench side wall hanging mechanism and a second double-workbench side wall hanging mechanism, and further comprising a left machine platform and a right machine platform which is arranged at the opposite side of the left machine platform and is parallel to the left machine platform, wherein a Y-direction sliding seat component of the first double-workbench side wall hanging mechanism is arranged on the left machine platform, and a Y-direction sliding seat component of the second double-workbench side wall hanging mechanism is arranged on the right machine platform.

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