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CN-224208619-U - High heat-conducting performance alumina plate pretreatment machine

CN224208619UCN 224208619 UCN224208619 UCN 224208619UCN-224208619-U

Abstract

The utility model relates to an alumina plate processing is with accessory device's technical field especially relates to a high heat conductivility alumina plate pretreatment machine, through multistage brush board combination clearance, is showing improvement alumina plate surface cleaning efficiency and quality, reduces staff's working strength to the convenience of device has been improved, consequently has strengthened the practicality; including the operation panel, including first brush board, second brush board, two sets of mounting panels, buffer gear and complementary unit, operation panel top front end and first brush board bottom are connected to operation panel top front end left and right sides is connected with a set of mounting panel bottom respectively, and two sets of mounting panels are relative one end and are passed through buffer gear and second brush board one end slip respectively and hug closely, and two sets of mounting panels are relative one end rear side and are provided with complementary unit.

Inventors

  • MA SHAOYING

Assignees

  • 河南鑫霸铝业有限公司

Dates

Publication Date
20260508
Application Date
20250529

Claims (8)

  1. 1. The utility model provides a high heat conductivility alumina plate preprocessor, includes operation panel (1), a serial communication port, including first brush board (2), second brush board (3), two sets of mounting panel (4), buffer gear and complementary unit, operation panel (1) top front end and first brush board (2) bottom are connected, and operation panel (1) top front end left and right sides is connected with a set of mounting panel (4) bottom respectively, two sets of mounting panel (4) relative one ends are passed through buffer gear and second brush board (3) one end slip respectively and are hugged closely, and two sets of mounting panel (4) relative one end rear side is provided with complementary unit.
  2. 2. The high thermal conductivity alumina plate preconditioner of claim 1, wherein the buffer mechanism comprises two sets of connecting plates (5) and a sliding assembly, the left and right ends of the top of the second brush plate (3) are respectively connected with the bottoms of one set of connecting plates (5), and the opposite ends of the two sets of mounting plates (4) are respectively in sliding close contact with one end of one set of connecting plates (5) through the sliding assembly.
  3. 3. The high thermal conductivity alumina plate preconditioner of claim 1, wherein the auxiliary mechanism comprises two sets of mounting blocks (6), two sets of third brush plates (7), two sets of guide assemblies and two sets of adjusting assemblies, the rear sides of the opposite ends of the two sets of mounting plates (4) are respectively connected with one ends of the mounting blocks (6) through the adjusting assemblies, the other ends of the two sets of mounting blocks (6) are respectively connected with one ends of the third brush plates (7), and the bottoms of the two sets of mounting blocks (6) are respectively in sliding close contact with the top of the operating table (1) through the guide assemblies.
  4. 4. The high thermal conductivity alumina plate preconditioner of claim 2, wherein the sliding assembly comprises two sets of slide bars (8), two sets of first slide blocks (9) and two sets of connecting springs (10), one set of slide grooves are respectively arranged at opposite ends of the two sets of mounting plates (4), one set of slide bars (8) are respectively arranged at the slide grooves of the two sets of mounting plates (4), the two sets of first slide blocks (9) are respectively connected with the slide grooves of the corresponding mounting plates (4) in a sliding manner through the slide bars (8), the bottoms of the outer sides of the two sets of slide bars (8) are respectively sleeved with the bottoms of the one set of connecting springs (10), two ends of the two sets of connecting springs (10) are respectively connected with the first slide blocks (9) and the bottoms of the corresponding slide grooves, and the other ends of the two sets of first slide blocks (9) are respectively connected with one end of the second hairbrush plate (3).
  5. 5. A high thermal conductivity alumina plate preconditioner as recited in claim 3, wherein the conditioning assembly comprises two sets of connecting screws (11) and two sets of threaded barrels (12), one set of preformed holes are provided on the rear side of opposite ends of the two sets of mounting plates (4), the outside of the two sets of threaded barrels (12) are rotatably connected to the inside of the preformed holes of the one set of mounting plates (4), the opposite ends of the two sets of threaded barrels (12) are threadably connected to one end of the one set of connecting screws (11), and the other ends of the two sets of connecting screws (11) are rotatably connected to one end of the one set of mounting blocks (6).
  6. 6. A high thermal conductivity alumina plate preconditioner as recited in claim 3, wherein the guide assembly comprises two sets of guide blocks (13), a set of runners are provided at each of the left and right ends of the top of the two sets of operating tables (1), the two sets of guide blocks (13) are slidably connected to the sets of runners, and the tops of the two sets of guide blocks (13) are connected to the bottoms of the mounting blocks (6).
  7. 7. A high thermal conductivity alumina plate preconditioner as recited in claim 5, further comprising two sets of rotary handles (14), one end of each of the two sets of threaded barrels (12) being connected to one end of one set of rotary handles (14).
  8. 8. A high thermal conductivity alumina plate preconditioner as recited in claim 1, further comprising a guide ramp (15), the front end of the second brush plate (3) being provided with a guide ramp (15).

Description

High heat-conducting performance alumina plate pretreatment machine Technical Field The utility model relates to the technical field of accessory devices for processing an alumina plate, in particular to a high-heat-conductivity alumina plate pretreatment machine. Background It is known that alumina plates with high heat conductivity have been widely used in the fields of electronics, aerospace, new energy, etc. because of their excellent heat dissipation, mechanical strength and chemical stability. Before the alumina plate is put into practical use, pretreatment is an important link, and the quality of the alumina plate directly influences the effects of the subsequent coating adhesion, welding, assembly and other processes; The prior alumina plate pretreaters have been found in use to require manual cleaning of the surface by a worker when working the surface, which not only increases the working strength of the worker, but also reduces the working efficiency of the aluminum plate, thereby reducing the convenience of the device and thus enhancing the practicality. Disclosure of utility model In order to solve the technical problems, the utility model provides the high-heat-conductivity alumina plate pretreatment machine which remarkably improves the surface cleaning efficiency and quality of the alumina plates and reduces the working strength of workers by combining and cleaning the multi-stage brush plates, thereby improving the convenience of the device and enhancing the practicability. The utility model relates to a high-heat-conductivity alumina plate pretreatment machine, which comprises an operation table, wherein the operation table comprises a first hairbrush plate, a second hairbrush plate, two groups of mounting plates, a buffer mechanism and an auxiliary mechanism, the front end of the top of the operation table is connected with the bottom of the first hairbrush plate, the left side and the right side of the front end of the top of the operation table are respectively connected with the bottom of one group of mounting plates, the opposite ends of the two groups of mounting plates are respectively and tightly attached to one end of the second hairbrush plate in a sliding way through the buffer mechanism, and the rear sides of the opposite ends of the two groups of mounting plates are provided with the auxiliary mechanism. Preferably, the buffer mechanism comprises two groups of connecting plates and a sliding assembly, the left end and the right end of the top of the second hairbrush plate are respectively connected with the bottoms of one group of connecting plates, and the opposite ends of the two groups of mounting plates are respectively and tightly attached to one end of one group of connecting plates in a sliding manner through the sliding assembly. Preferably, the auxiliary mechanism comprises two groups of mounting blocks, two groups of third hairbrush plates, two groups of guide assemblies and two groups of adjusting assemblies, the rear sides of the opposite ends of the two groups of mounting plates are respectively connected with one ends of the mounting blocks through the adjusting assemblies, the other ends of the two groups of mounting blocks are respectively connected with one ends of the third hairbrush plates, and the bottoms of the two groups of mounting blocks are respectively and slidably clung to the tops of the operating tables through the guide assemblies. Preferably, the sliding assembly comprises two groups of sliding rods, two groups of first sliding blocks and two groups of connecting springs, one ends of the two groups of mounting plates, which are opposite, are respectively provided with a group of sliding grooves, the two groups of mounting plates are respectively provided with a group of sliding rods, the two groups of first sliding blocks are respectively connected with the corresponding mounting plates in a sliding manner through the sliding rods, the bottoms of the outer sides of the two groups of sliding rods are respectively sleeved with the bottoms of the two groups of connecting springs, the two ends of the two groups of connecting springs are respectively connected with the first sliding blocks and the bottoms of the corresponding sliding grooves, and the other ends of the two groups of first sliding blocks are respectively connected with one ends of the second hairbrush plates. Preferably, the adjusting component comprises two groups of connecting screws and two groups of threaded cylinders, a group of reserved holes are respectively formed in the rear sides of the opposite ends of the two groups of mounting plates, the outer sides of the two groups of threaded cylinders are respectively connected with the inner sides of the reserved holes of the group of mounting plates in a rotating mode, one ends of the two groups of threaded cylinders are respectively connected with one ends of the connecting screws in a threaded mode, and the other ends of the two gr