CN214873409U - Adjustable mould - Google Patents

Abstract

The utility model relates to a mould with adjustable, comprising a base plate, the top of bottom plate is equipped with the movable platform that the level set up, be equipped with the frock board that is used for placing the ceramic chip work piece on the movable platform, be equipped with the first station that is used for printing ceramic chip work piece pipe installation face and the second station that is used for printing ceramic chip work piece water course installation face on the top surface of frock board, the top of frock board is equipped with the printing steel mesh that prints the ceramic chip work piece with the cooperation of frock board, be equipped with first net and the second net that corresponds respectively with first station and second station on the printing steel mesh. The utility model has the characteristics of equipment input cost is low and can efficient double-sided printing ceramic chip etc.

Description

Adjustable mould

Technical Field

The utility model relates to a mould with adjustable belongs to the technical field of heat conduction silicone grease printing.

Background

When the charger works, the temperature of the built-in MOS rises along with the work of a product, in order to dissipate the MOS temperature by means of the flow of water cooling liquid, the MOS temperature is led out and cooled, according to the structural requirement, heat conduction silicone grease is brushed on two sides of a ceramic wafer to be directly conducted between an MOS tube and a water cooling pipeline, according to the product design requirement, the ceramic wafer needs to be printed on two sides, after a first set of original mould is designed on a mould multi-sheet type printing pipe mounting surface, a second set of mould is designed on a printing water channel mounting surface, the water channel mounting surface can be printed by only designing two sets of moulds, the investment cost of equipment is increased, the working time required by printing is increased when the ceramic wafer is transferred, and the working efficiency is reduced.

Disclosure of Invention

An object of the utility model is to provide a mould with adjustable, the equipment input cost that has solved prior art existence is high and the printing shaping scheduling problem consuming time.

The above technical purpose of the present invention is mainly solved by the following technical solutions: an adjustable die comprises a bottom plate, wherein a horizontally arranged movable platform is arranged above the bottom plate, a tooling plate for placing ceramic chip workpieces is arranged on the movable platform, a first station for printing ceramic chip workpiece tube installation surfaces and a second station for printing ceramic chip workpiece water channel installation surfaces are arranged on the top surface of the tooling plate, a printing steel mesh matched with the tooling plate for printing the ceramic chip workpieces is arranged above the tooling plate, and a first mesh and a second mesh which respectively correspond to the first station and the second station are arranged on the printing steel mesh; the setting of first station and second station on the above-mentioned frock board to in place the different faces of ceramic chip work piece, make the steel mesh print the different faces of ceramic chip work piece through first net and second net, thereby realize printing the different faces of ceramic chip work piece simultaneously in same mould, avoid the setting of a plurality of moulds, reduced the input cost of equipment, and reduced the required man-hour of ceramic chip work piece transfer, improved printing efficiency.

Preferably, the first station is provided with at least one first strip-shaped groove which is longitudinally arranged, and the second station is provided with at least one second strip-shaped groove which is longitudinally arranged; above-mentioned first bar groove and the setting in second bar groove to for the printing position on the ceramic chip work piece reserves the space, avoid the printing back, the printing face of ceramic chip work piece leads to gluing on the standing groove with the standing groove contact, guarantees the printing quality of ceramic chip work piece, reserves the space of ceramic chip work piece both sides simultaneously, makes things convenient for getting of ceramic chip work piece to take.

Preferably, the first strip-shaped groove is provided with a plurality of first placing grooves for placing ceramic chip workpieces and transversely crossing the first strip-shaped groove, and the second strip-shaped groove is provided with a plurality of second placing grooves for placing ceramic chip workpieces and transversely crossing the second strip-shaped groove; the ceramic chip workpieces can be placed in batches by the aid of the first placing grooves and the second placing grooves, and the ceramic chip workpieces with different printing surfaces can be placed in a classified mode, so that distinguishing and printing are facilitated.

Preferably, the bottom plate is provided with a plurality of vertically arranged first screws, the first screws are provided with rotating blocks in threaded connection with the first screws, the side wall of the printing steel mesh is provided with a connecting shaft which can rotate around the axis and is horizontally arranged, and the printing steel mesh is rotatably connected with the rotating blocks through the connecting shaft; above-mentioned first screw rod and the setting of rotatory piece for rotatory piece can drive the connecting axle through screw-thread fit and reciprocate, with this height of adjusting the printing steel mesh, guarantees that the printing steel mesh is in the horizontality after, can just press and print on the frock board, guarantees the printing quality of printing steel mesh.

Preferably, the rotating blocks are sleeved with first connecting blocks which can horizontally rotate around the shaft, the connecting shafts penetrate through the first connecting blocks, and the connecting shafts can rotate around the axis on the first connecting blocks; the arrangement of the first connecting block is convenient for supporting the connecting shaft, and the connecting shaft can stably rotate on the first connecting block.

Preferably, a bracket is arranged on the side wall of the printing steel mesh, the outer side of the bracket is rotatably connected with a connecting shaft through a connecting piece, the connecting shaft and the connecting piece are connected through a bolt arranged along the diameter direction of the connecting shaft, a plurality of first clamps used for clamping the printing steel mesh are arranged on the bracket, and a limiting block is sleeved on the outer side of the connecting piece, corresponding to the outer wall of the connecting shaft; the setting of above-mentioned support to it is fixed to the printing steel mesh, and fixed to the connecting axle, make the printing steel mesh can overturn, and the setting of first anchor clamps can increase to the connection of printing steel mesh and support fixed, guarantees the reliable and stable of support on the printing steel mesh.

Preferably, the bracket comprises a first support part which is arranged in parallel with the top surface of the printing steel mesh and is positioned above the printing steel mesh and a second support part which is arranged in parallel with the first support part and is positioned at the bottom of the printing steel mesh, and the first clamp is arranged on the first support part and fixes the bracket on the printing steel mesh; the cooperation setting of above-mentioned first supporting part and second supporting part can press from both sides the top and the bottom of printing steel mesh tightly for the support can be fixed on the printing steel mesh through first anchor clamps, thereby can drive the printing steel mesh through the connecting axle and rotate.

Preferably, a connecting rod is arranged on the connecting shaft along the diameter direction of the connecting shaft, one end of the connecting rod is connected with the connecting shaft through an annular sleeve, the annular sleeve is connected with the connecting shaft through a bolt arranged along the diameter direction of the connecting shaft, a balancing weight is arranged at the other end of the connecting rod, the balancing weight is in threaded connection with the connecting rod, and a knob used for locking the balancing weight on the connecting rod is arranged on the balancing weight; the setting of above-mentioned connecting rod and balancing weight for upwards overturning of printing steel mesh can be controlled through the balancing weight, in order to accomplish the printing and get the process of material, above-mentioned simple structure is convenient, the cost is reduced, and practical effective, can realize the regulation to printing steel mesh rotation angle through the position adjustment of balancing weight on the connecting rod simultaneously.

Preferably, the included angle between the connecting rod and the printing steel mesh is alpha, and the angle of the alpha is smaller than 180 degrees; through the setting to angle alpha for the upset of connecting rod can be through the upset of lever principle control printing steel mesh, guarantees the stable realization of upset.

Preferably, the bottom plate is provided with a second clamp for clamping the movable platform and a folded plate in threaded connection with the second clamp, the second clamp comprises a second screw rod which is horizontally arranged and in threaded connection with the folded plate, one end, facing the movable platform, of the second screw rod is fixedly provided with a bowl-shaped gasket through a screw, the other end of the second screw rod is provided with a screwing block, and the structure of the first clamp is consistent with that of the second clamp; the arrangement of the folded plate can be matched with the second screw rod to buckle the bowl-shaped gasket on the side wall of the movable platform, the two sides of the movable platform are respectively clamped through thread matching, the position of the movable platform can be adjusted at any time and then clamped, the structure is simple, the operation is easy, the cost is low, and the bowl-shaped gasket is very practical.

Therefore, the utility model has the characteristics of equipment input cost is low and can efficient double-sided printing ceramic chip etc.

Drawings

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a perspective view of the alternate view of FIG. 1;

FIG. 3 is a perspective view of the stand of FIG. 1;

FIG. 4 is a side view of FIG. 1;

fig. 5 is a schematic structural view of the second jig of fig. 1.

Detailed Description

The technical solution of the present invention is further specifically described below by way of examples and with reference to the accompanying drawings.

As shown in fig. 1-5, an adjustable mold comprises a bottom plate 1, a horizontally disposed movable platform 2 is disposed above the bottom plate 1, a tooling plate 3 for placing ceramic tile workpieces is disposed on the movable platform 2, a first station 31 for printing ceramic tile workpiece tube installation surfaces and a second station 32 for printing ceramic tile workpiece water channel installation surfaces are disposed on the top surface of the tooling plate 3, a printing steel mesh 4 matched with the tooling plate 3 for printing ceramic tile workpieces is disposed above the tooling plate 3, a first mesh 41 and a second mesh 42 corresponding to the first station 31 and the second station 32 are disposed on the printing steel mesh 4, the first station and the second station are disposed on the tooling plate for placing different surfaces of the ceramic tile workpieces, so that the steel mesh can print different surfaces of the ceramic tile workpieces through the first mesh and the second mesh, thereby realizing that different surfaces of the ceramic tile workpieces can be printed simultaneously in the same mold, the setting of a plurality of moulds is avoided, the input cost of equipment is reduced, the working hours required for transferring the ceramic chip workpieces are reduced, and the printing efficiency is improved.

The printing steel mesh is provided with two grids in different styles, namely a first grid and a second grid, the first grid and the second grid respectively correspond to a first station and a second station, and the first grid and the second grid respectively print the front side and the back side of the ceramic chip workpiece; before the ceramic chip workpiece is printed, the printing steel mesh is turned upwards firstly, then the ceramic chip workpiece is placed on the first station and the second station respectively in a mode that different surfaces face upwards, then the printing steel mesh is turned downwards, the printing steel mesh is pressed on the tooling plate, then heat conduction silicone grease is printed, after brushing is finished, the printing steel mesh is turned upwards, each ceramic chip is turned over, then the printing steel mesh is pressed on the tooling plate again, after printing is carried out again, the printing steel mesh is turned upwards, the ceramic chip workpiece after printing is taken out, and therefore printing of the ceramic chip workpiece is completed.

As shown in fig. 1-2, at least one first strip-shaped groove 311 is longitudinally arranged on the first station 31, at least one second strip-shaped groove 321 is longitudinally arranged on the second station 32, and the first strip-shaped groove and the second strip-shaped groove are arranged so as to reserve a space for a printing position on the ceramic chip workpiece, so that after printing, the printing surface of the ceramic chip workpiece is prevented from being adhered to the placing groove due to contact with the placing groove, the printing quality of the ceramic chip workpiece is ensured, and spaces on two sides of the ceramic chip workpiece are reserved, so that the ceramic chip workpiece can be conveniently taken; the first strip-shaped groove 311 is provided with a plurality of first placing grooves 312 for placing ceramic chip workpieces and transversely crossing the first strip-shaped groove 311, the second strip-shaped groove 321 is provided with a plurality of second placing grooves 322 for placing ceramic chip workpieces and transversely crossing the second strip-shaped groove 321, and the first placing grooves and the second placing grooves can be used for placing ceramic chip workpieces in batches and placing ceramic chip workpieces printed on different surfaces in a classified manner, so that the ceramic chip workpieces can be distinguished and printed conveniently; above-mentioned each standing groove is provided with the different specifications of different length to the ceramic chip work piece of adaptation different specifications, the ceramic chip work piece is transversely placed in each standing groove, and the position of printing on the ceramic chip work piece just is in the top in bar groove, avoids printing position and the contact of bar groove on the ceramic chip work piece.

As shown in fig. 1-2, a plurality of vertically arranged first screws 11 are arranged on a bottom plate 1, a rotating block 12 in threaded connection with the first screws 11 is arranged on the first screws 11, a connecting shaft 43 capable of rotating around an axis and horizontally arranged is arranged on the side wall of a printing steel mesh 4, the printing steel mesh 4 is rotatably connected with the rotating block 12 through the connecting shaft 43, and the arrangement of the first screws and the rotating block enables the rotating block to drive the connecting shaft to move up and down through threaded fit, so that the height of the printing steel mesh is adjusted, and the printing steel mesh can be just pressed on a tooling plate to be printed after being in a horizontal state, thereby ensuring the printing quality of the printing steel mesh; the cover is equipped with the first connecting block 13 that can the level pivoting on rotatory piece 12, and connecting axle 43 wears to locate on each first connecting block 13 and connecting axle 43 can be around the axis rotation on first connecting block 13, the setting of above-mentioned first connecting block to support the connecting axle, guarantee the rotation that the connecting axle can be stable on first connecting block.

As shown in fig. 1 to 3 and 5, a bracket 44 is disposed on a side wall of the printing steel mesh 4, an outer side of the bracket 44 is rotatably connected to the connecting shaft 43 through a connecting member 441, the connecting shaft 43 and the connecting member 441 are connected by a bolt disposed along a diameter direction of the connecting shaft 43, the bracket 44 is provided with a plurality of first clamps 45 for clamping the printing steel mesh 4, a limiting block 431 is sleeved on an outer wall of the connecting shaft 43 corresponding to the outer side of the connecting member 441, the bracket is disposed so as to fix the printing steel mesh and the connecting shaft, so that the printing steel mesh can be turned over, and the first clamps are disposed to increase connection and fixation between the printing steel mesh and the bracket, thereby ensuring stability and reliability of the bracket on the printing steel mesh; the bracket 44 comprises a first support part 442 which is arranged in parallel with the top surface of the printing steel mesh 4 and is positioned above the printing steel mesh 4 and a second support part 443 which is arranged in parallel with the first support part 442 and is positioned at the bottom of the printing steel mesh 4, the first clamp 45 is arranged on the first support part 442 and fixes the bracket 44 on the printing steel mesh 4, and the first support part and the second support part are arranged in a matching way and can clamp the top and the bottom of the printing steel mesh, so that the bracket can be fixed on the printing steel mesh through the first clamp, and the printing steel mesh can be driven to rotate through the connecting shaft; the bottom plate 1 is provided with a second clamp 14 for clamping the movable platform 2 and a folded plate 15 in threaded connection with the second clamp 14, the second clamp 14 comprises a second screw 16 which is horizontally arranged and in threaded connection with the folded plate 15, one end of the second screw 16, which faces the movable platform 2, is fixed with a bowl-shaped gasket 162 through a screw 161, the other end of the second screw 16 is provided with a screwing block 163, the structure of the first clamp 45 is consistent with that of the second clamp 14, the folded plate can be matched with the second screw to buckle the bowl-shaped gasket on the side wall of the movable platform, and the two sides of the movable platform are respectively clamped through threaded matching, the position of the movable platform can be adjusted at any time to be clamped, the structure is simple and easy to operate, the cost is low, and the movable platform is very practical.

Before the position of the movable platform needs to be adjusted, the screwing block is directly rotated to drive the screw rod to move towards the outer side on the folded plate, the bowl-shaped gasket cancels clamping of the movable platform, then the position of the movable platform is adjusted, then the screwing block is reversely rotated, so that the screw rod drives the bowl-shaped gasket to move towards the movable platform until the movable platform is clamped, clamping of the movable platform is completed, clamping of the support on a printing steel mesh is loosened and consistent with the above mode, and repeated description is omitted here.

As shown in fig. 1 and 4, a connecting rod 46 is arranged on the connecting shaft 43 along the diameter direction of the connecting shaft 43, one end of the connecting rod 46 is connected with the connecting shaft 43 through an annular sleeve 461, the annular sleeve 461 is connected with the connecting shaft 43 through a bolt arranged along the diameter direction of the connecting shaft 43, a balancing weight 462 is arranged at the other end of the connecting rod 46, the balancing weight 462 is in threaded connection with the connecting rod 46, a knob 463 for locking the balancing weight 462 on the connecting rod 46 is arranged on the balancing weight 462, and the arrangement of the connecting rod and the balancing weight enables the upward turning of the printing steel mesh to be controlled through the balancing weight so as to complete the processes of printing and material taking, the structure is simple and convenient, the cost is reduced, the operation is practical and effective, and meanwhile, the turning angle of the printing steel mesh can be adjusted through the position adjustment of the balancing weight on the connecting rod; the included angle between the connecting rod 46 and the printing steel mesh 4 is alpha, the angle of alpha is smaller than 180 degrees, and the overturning of the connecting rod can be controlled by the lever principle through the arrangement of the angle alpha, so that the stable realization of the overturning is ensured.

The size of angle alpha and the quality accessible of balancing weight overturn the test many times, adjust to the optimum size, make after the upset of printing steel mesh, can not influence getting of ceramic chip work piece and put, and be in stable state after guaranteeing the upset of printing steel mesh, avoid the printing steel mesh to rock after the upset up, when the printing steel mesh that upwards overturns needs, the balancing weight is moved to the lapse, after exceeding the balance point, the balancing weight can remain stable, make the unable automation of printing steel mesh turn down, and the balancing weight on the connecting rod and the distance between the connecting axle, can adjust, make the balancing weight extreme low position can overturn the printing steel mesh, avoid the balancing weight to influence the compressing tightly of printing steel mesh to the frock board in the highest position.

Claims (10)

1. An adjustable mold comprises a bottom plate (1), and is characterized in that: the top of bottom plate (1) is equipped with movable platform (2) that the level set up, be equipped with on movable platform (2) and be used for placing ceramic chip work piece frock board (3), be equipped with on the top surface of frock board (3) and be used for printing first station (31) of ceramic chip work piece pipe installation face and be used for printing second station (32) of ceramic chip work piece water course installation face, the top of frock board (3) is equipped with and cooperates printing steel mesh (4) of printing ceramic chip work piece with frock board (3), be equipped with on printing steel mesh (4) and correspond first net (41) and second net (42) respectively with first station (31) and second station (32).

2. The adjustable mold according to claim 1, wherein: the device is characterized in that at least one first strip-shaped groove (311) which is longitudinally arranged is arranged on the first station (31), and at least one second strip-shaped groove (321) which is longitudinally arranged is arranged on the second station (32).

3. The adjustable mold according to claim 2, wherein: the ceramic tile processing device is characterized in that a plurality of first placing grooves (312) used for placing ceramic tile workpieces and transversely crossing the first strip-shaped grooves (311) are formed in the first strip-shaped grooves (311), and a plurality of second placing grooves (322) used for placing ceramic tile workpieces and transversely crossing the second strip-shaped grooves (321) are formed in the second strip-shaped grooves (321).

4. The adjustable mold according to claim 1, wherein: be equipped with first screw rod (11) of many vertical settings on bottom plate (1), be equipped with rotatory piece (12) with first screw rod (11) threaded connection on first screw rod (11), be equipped with connecting axle (43) that can encircle axis rotation and level setting on the lateral wall of printing steel mesh (4), printing steel mesh (4) are connected with rotatory piece (12) rotation through connecting axle (43).

5. The adjustable mold according to claim 4, wherein: the rotating block (12) is sleeved with a first connecting block (13) capable of horizontally rotating around a shaft, and the connecting shaft (43) penetrates through the first connecting block (13) and can rotate around the shaft on the first connecting block (13) through the connecting shaft (43).

6. The adjustable mold according to claim 4, wherein: be equipped with support (44) on the lateral wall of printing steel mesh (4), the outside of support (44) is passed through connecting piece (441) and is connected with connecting axle (43) rotation, through the bolted connection that sets up along the diameter direction of connecting axle (43) between connecting axle (43) and connecting piece (441), be equipped with a plurality of first anchor clamps (45) that are used for pressing from both sides tight printing steel mesh (4) on support (44), the outside of connecting piece (441) is equipped with stopper (431) corresponding to the cover on the outer wall of connecting axle (43).

7. The adjustable mold of claim 6, wherein: the support (44) comprises a first support portion (442) and a second support portion (443), wherein the first support portion (442) is arranged in parallel with the top surface of the printing steel mesh (4) and is located above the printing steel mesh (4), the second support portion (443) is arranged in parallel with the first support portion (442) and is located at the bottom of the printing steel mesh (4), and the first clamp (45) is arranged on the first support portion (442) and fixes the support (44) on the printing steel mesh (4).

8. The adjustable mold according to claim 4, 5 or 6, wherein: the connecting shaft (43) is provided with a connecting rod (46) along the diameter direction of the connecting shaft (43), one end of the connecting rod (46) is connected with the connecting shaft (43) through an annular sleeve (461), the annular sleeve (461) is connected with the connecting shaft (43) through a bolt arranged along the diameter direction of the connecting shaft (43), the other end of the connecting rod (46) is provided with a balancing weight (462), the balancing weight (462) is in threaded connection with the connecting rod (46), and a knob (463) used for locking the balancing weight (462) on the connecting rod (46) is arranged on the balancing weight (462).

9. The adjustable mold of claim 8, wherein: the included angle between the connecting rod (46) and the printing steel mesh (4) is alpha, and the angle of alpha is smaller than 180 degrees.

10. The adjustable mold of claim 6, wherein: the improved clamp is characterized in that a second clamp (14) used for clamping the movable platform (2) and a folded plate (15) in threaded connection with the second clamp (14) are arranged on the bottom plate (1), the second clamp (14) comprises a second screw rod (16) which is horizontally arranged and in threaded connection with the folded plate (15), a bowl-shaped gasket (162) is fixed to one end, facing the movable platform (2), of the second screw rod (16) through a screw (161), a screwing block (163) is arranged at the other end of the second screw rod (16), and the structure of the first clamp (45) is consistent with that of the second clamp (14).

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