CN111451905B - Drying plate grinding treatment equipment for gold plating - Google Patents

Abstract

The invention relates to a plate grinding device, in particular to a drying plate grinding device for gold plating, which comprises a grinding mechanism, a platform mechanism and a drying mechanism, wherein the grinding mechanism can be conveniently mounted and dismounted, the device can grind, the device can recover the powder generated by grinding while grinding, the device can guide negative pressure air to dry for use, the grinding mechanism is connected with the drying mechanism, and the platform mechanism is connected with the drying mechanism.

Description

Drying plate grinding treatment equipment for gold plating

Technical Field

The invention relates to plate grinding equipment, in particular to drying plate grinding treatment equipment for gold plating.

Background

In the gold plating process, operations such as plate grinding, plate drying and the like are required, and the traditional process needs different equipment to carry out two process operation flows, consumes energy and has low efficiency, so the plate grinding treatment equipment for the gold plating drying plate is designed.

Disclosure of Invention

The invention mainly solves the technical problem of providing drying plate grinding plate processing equipment for gold plating, the equipment can conveniently install and detach a grinding plate, the equipment can grind, the equipment can recover the powder generated by grinding while grinding, and the equipment can guide negative pressure air to dry for use.

In order to solve the technical problem, the invention relates to a plate grinding device, in particular to a drying plate grinding processing device for gold plating, which comprises a grinding mechanism, a platform mechanism and a drying mechanism, wherein the grinding plate can be conveniently installed and detached, the device can grind, the device can recover powder generated by grinding while grinding, and the device can guide negative pressure air to dry.

The grinding mechanism is connected with the drying mechanism, and the platform mechanism is connected with the drying mechanism.

As a further optimization of the technical scheme, the polishing mechanism of the drying plate polishing treatment equipment for gold plating comprises a polishing plate, a unthreaded hole, a fixed shell, a locking mechanism, a perforated plate, a bent arm bearing seat, a limiting head, a square hole seat, a square column, a spring, a wedge block, a ratchet wheel, a connecting shaft, a round seat with a hole, a driven plate, a sliding rod, a stepped sliding block, a hinged arm, a stepped sliding block I, a sliding column, a special-shaped hole, an inner stepped sliding hole, a limiting rod hole and an adjusting wheel, wherein the polishing plate is in sliding connection with the fixed shell, the unthreaded hole is formed in the fixed shell, the locking mechanism is in sliding connection with the perforated plate, the locking mechanism is in contact with the adjusting wheel, the perforated plate is connected with the fixed shell, the bent arm bearing seat is connected with the square hole seat, the square hole seat is in sliding connection with the square column, the square column is connected with the limiting head, the spring is sleeved on, The wedge block is connected with the square column, the wedge block is contacted with the ratchet wheel, the ratchet wheel is connected with a connecting shaft, the connecting shaft is connected with a round seat with holes, the connecting shaft is connected with a fixed shell in a bearing mode, the connecting shaft is connected with a bent arm bearing seat in a bearing mode, a driven plate is connected with a sliding rod, the sliding rod is connected with a stepped sliding block, the stepped sliding block is hinged with a hinged arm, the hinged arm is hinged with a stepped sliding block I, the stepped sliding block I is connected with a sliding column, the sliding column is connected with a fixed shell, the special-shaped hole is formed in the fixed shell, a locking mechanism is connected with the special-shaped hole in a sliding mode, the inner stepped sliding hole is formed in the fixed shell, a limiting rod hole is formed in the polishing plate, the locking mechanism is connected with the inner stepped sliding hole in a sliding mode, and the; locking mechanism includes gag lever post I, built-in slip dish, reset spring, dysmorphism axle I, the linkage arm, press from both sides tight pole, press from both sides tight seat, gag lever post I links to each other with built-in slip dish, built-in slip dish links to each other with dysmorphism axle I, reset spring overlaps on dysmorphism axle I, dysmorphism axle I links to each other with the linkage arm, the linkage arm links to each other with pressing from both sides tight pole, press from both sides tight pole and press from both sides tight seat and link to each other, gag lever post I and gag lever post hole sliding connection, built-in slip dish and interior ladder sliding hole sliding connection, reset spring sets up in interior ladder sliding hole, reset spring supports on built.

As a further optimization of the technical scheme, the platform mechanism of the drying plate grinding treatment equipment for gold plating comprises a connecting pipe, a negative pressure box, a supporting leg, a base, a supporting leg I, a clamping seat I, a clamping slide hole, a return spring I, a stepped slide rod I, a threaded column, a threaded through hole, a supporting platform, a handle, a pulling box, an embedded groove, an air port and an electric heating pipe, wherein the connecting pipe is connected with the negative pressure box, the negative pressure box is connected with the supporting leg, the supporting leg is connected with the base, the base is connected with the supporting leg I, the supporting leg I is connected with the supporting platform, the supporting platform is connected with the negative pressure box, the clamping seat I is connected with the stepped slide rod I, the stepped slide rod I is connected with the clamping slide hole in a sliding manner, the clamping slide hole is opened on the supporting platform, the return spring I is sleeved on the stepped slide rod I, the return spring I abuts against the supporting platform and the stepped slide, the threaded through hole is formed in the supporting platform, the handle is connected with the pulling box, the pulling box is connected with the embedded groove in a sliding mode, the embedded groove is formed in the negative pressure box, the air opening is formed in the negative pressure box, and the connecting pipe is communicated with the negative pressure box through the air opening.

As a further optimization of the technical scheme, the drying mechanism of the drying plate grinding processing equipment for gold plating comprises a bent arm supporting leg, a special-shaped support, a clamping cylinder, a clamping semicircular seat, a sliding square column, a clamping spring, a square hole seat I, a pulling seat, a bearing seat A, an outlet A, a semipermeable membrane, a cam, a coupler, a driving motor, a bearing seat B, a sliding rod A, a reset spring A, a unthreaded hole A, a limiting sliding seat, a stepped groove I, a pulling sliding hole, a shaft-provided negative pressure wind wheel, an air suction channel, an air inlet channel and an inner cavity, wherein the bent arm supporting leg is connected with a supporting platform, the bent arm supporting leg is connected with the special-shaped support, the special-shaped support is connected with the clamping cylinder, the clamping semicircular seat is abutted against the clamping cylinder, the clamping semicircular seat is connected with the sliding square column, the clamping spring is sleeved on the sliding square column, the clamping spring is abutted against the square hole seat I and the clamping semicircular seat, and the square hole seat I, the sliding square column is connected with a square hole seat I in a sliding manner, the sliding square column is connected with a pulling seat, a bearing seat A is connected with a special-shaped support, an outlet A is formed in the special-shaped support, a semipermeable membrane is arranged at the outlet A and is connected with the special-shaped support, a cam is connected with a shaft negative pressure wind wheel, the shaft negative pressure wind wheel is connected with the bearing seat A in a bearing manner, the shaft negative pressure wind wheel is arranged in an inner cavity, a clamping cylinder is communicated with the inner cavity, the shaft negative pressure wind wheel is connected with a driving motor through a coupler, a bearing seat B is connected with the shaft negative pressure wind wheel in a bearing manner, the bearing seat B is connected with the special-shaped support, a sliding rod A is connected with an unthreaded hole in a sliding manner, a reset spring A is sleeved on the sliding rod A and abuts against the special-shaped support and a fixed shell, the unthreaded hole A is formed in a limiting sliding seat, the limiting sliding seat is connected with the special, the sliding rod is connected with the unthreaded hole A in a sliding mode, the stepped sliding block is connected with the stepped groove I in a sliding mode, the pulling sliding hole is formed in the special-shaped support and is connected with the sliding column in a sliding mode, the air suction channel is arranged in the special-shaped support, the air inlet channel is arranged in the special-shaped support and is communicated with the air inlet channel, the air inlet channel is communicated with the inner cavity, the connecting pipe is connected with the special-shaped support, and the connecting pipe is communicated with the connecting pipe.

As a further optimization of the technical scheme, the material characteristics of the semipermeable membrane of the drying plate and grinding plate processing equipment for gold plating are air-permeable and solid-impermeable.

The drying plate grinding treatment equipment for gold plating has the beneficial effects that:

according to the drying plate grinding plate processing equipment for gold plating, disclosed by the invention, the grinding plate can be conveniently mounted and dismounted, the equipment can grind, the equipment can recover the powder generated by grinding while grinding, and the equipment can guide negative pressure air to dry for use.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a first schematic structural diagram of a drying plate grinding processing apparatus for gold plating according to the present invention.

FIG. 2 is a second schematic structural view of a drying plate grinding apparatus for gold plating according to the present invention.

FIG. 3 is a third schematic structural view of a drying plate grinding processing apparatus for gold plating according to the present invention.

Fig. 4 is a first structural schematic diagram of a polishing mechanism 1 of a drying plate polishing processing device for gold plating according to the present invention.

Fig. 5 is a second schematic structural diagram of a polishing mechanism 1 of a drying plate polishing device for gold plating according to the present invention.

Fig. 6 is a third schematic structural diagram of a polishing mechanism 1 of a drying plate polishing device for gold plating according to the present invention.

FIG. 7 is a schematic structural diagram of a locking mechanism 1-4 of a drying plate grinding processing device for gold plating according to the present invention.

Fig. 8 is a first structural schematic diagram of the platform mechanism 2 of the drying plate grinding processing device for gold plating according to the present invention.

Fig. 9 is a second structural schematic diagram of the platform mechanism 2 of the drying plate grinding processing device for gold plating according to the present invention.

Fig. 10 is a third schematic structural diagram of the platform mechanism 2 of the drying plate grinding processing device for gold plating according to the present invention.

Fig. 11 is a schematic structural diagram of a drying mechanism 3 of a drying plate grinding processing device for gold plating according to the present invention.

Fig. 12 is a schematic structural diagram of a drying mechanism 3 of a drying plate grinding processing device for gold plating according to the present invention.

Fig. 13 is a schematic structural diagram of a drying mechanism 3 of a drying plate grinding processing device for gold plating according to the present invention.

Fig. 14 is a schematic structural diagram of a drying mechanism 3 of a drying plate grinding processing device for gold plating according to the present invention.

Fig. 15 is a schematic structural diagram of a drying mechanism 3 of a drying plate grinding processing device for gold plating according to the present invention.

In the figure: a polishing mechanism 1; grinding the plate 1-1; a light hole 1-2; 1-3 of a fixed shell; 1-4 of a locking mechanism; a limiting rod I1-4-1; a built-in sliding disc 1-4-2; 1-4-3 of a return spring; the special-shaped shaft I1-4-4; 1-4-5 of a linkage arm; 1-4-6 of a clamping rod; 1-4-7 of a clamping seat; 1-5 parts of a perforated plate; 1-6 of a bent arm bearing block; 1-7 of a limiting head; 1-8 parts of a square hole seat; 1-9 of square column; 1-10 parts of spring; 1-11 parts of a wedge block; 1-12 parts of ratchet wheel; connecting shafts 1-13; 1-14 of a round seat with holes; passive plates 1-15; 1-16 slide bars; 1-17 of a stepped slider; articulated arms 1-18; 1-19 of a stepped slide block I; 1-20 of a sliding column; special-shaped holes 1-21; 1-22 of inner stepped slide holes; 1-23 parts of a limiting rod hole; 1-24 of an adjusting wheel; a platform mechanism 2; connecting pipe 2-1; 2-2 of a negative pressure box; 2-3 of supporting legs; 2-4 parts of a base; leg I2-5; the clamping seat I2-6; 2-7 of a clamping slide hole; a return spring I2-8; a step slide bar I2-9; 2-10 parts of a threaded column; 2-11 parts of a threaded through hole; 2-12 of a support platform; 2-13 parts of a handle; 2-14 of a drawing box; 2-15 of embedded groove; 2-16 of tuyere; 2-17 parts of an electric heating tube; a drying mechanism 3; a bent arm supporting leg 3-1; 3-2 of a special-shaped support; 3-3 of a clamping cylinder; 3-4 of clamping a semicircular seat; 3-5 of a sliding square column; 3-6 parts of a clamping spring; a square hole seat I3-7; 3-8 of a pull seat; bearing seat A3-9; an outlet A3-10; 3-11 parts of semipermeable membrane; 3-12 of a cam; 3-13 of a coupler; driving motors 3-14; bearing seat B3-15; slide bar A3-16; a return spring A3-17; light hole A3-18; 3-19 of a limiting sliding seat; a step groove I3-20; 3-21 of a sliding hole is pulled; 3-22 of negative pressure wind wheel with shaft; 3-23 of an air suction channel; 3-24 parts of an air inlet channel; and 3-25 parts of inner cavity.

Detailed Description

The first embodiment is as follows:

the present invention relates to a plate grinding device, and more particularly to a plate drying and grinding treatment device for gold plating, which comprises a grinding mechanism 1, a platform mechanism 2 and a drying mechanism 3, and can conveniently mount and dismount the grinding plate, the device can grind, the device can recycle the grinding powder while grinding, and the device can guide negative pressure air to dry.

The grinding mechanism 1 is connected with the drying mechanism 3, and the platform mechanism 2 is connected with the drying mechanism 3.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, and the embodiment further describes the embodiment, where the polishing mechanism 1 includes a polishing plate 1-1, a unthreaded hole 1-2, a fixed housing 1-3, a locking mechanism 1-4, a perforated plate 1-5, a bent arm bearing seat 1-6, a limiting head 1-7, a square hole seat 1-8, a square column 1-9, a spring 1-10, a wedge 1-11, a ratchet 1-12, a connecting shaft 1-13, a perforated circular seat 1-14, a driven plate 1-15, a sliding rod 1-16, a stepped slider 1-17, an articulated arm 1-18, a stepped slider I1-19, a wedge 1-11, a ratchet 1-13, a connecting shaft 1-, 1-20 parts of a sliding column, 1-21 parts of a special-shaped hole, 1-22 parts of an inner stepped sliding hole, 1-23 parts of a limiting rod hole and 1-24 parts of an adjusting wheel, wherein a polishing plate 1-1 is connected with a fixed shell 1-3 in a sliding way, a unthreaded hole 1-2 is arranged on the fixed shell 1-3, a locking mechanism 1-4 is connected with a hole plate 1-5 in a sliding way, the locking mechanism 1-4 is contacted with the adjusting wheel 1-24, the hole plate 1-5 is connected with the fixed shell 1-3, a bent arm bearing seat 1-6 is connected with a square hole seat 1-8, a square hole seat 1-8 is connected with a square column 1-9 in a sliding way, a square column 1-9 is connected with a limiting head 1-7, and a spring 1-10 is sleeved on the square, the spring 1-10 is supported on the square hole seat 1-8 and the wedge block 1-11, the wedge block 1-11 is connected with the square column 1-9, the wedge block 1-11 is contacted with the ratchet wheel 1-12, the ratchet wheel 1-12 is connected with the connecting shaft 1-13, the connecting shaft 1-13 is connected with the hole round seat 1-14, the connecting shaft 1-13 is connected with the fixed shell 1-3 by a bearing, the connecting shaft 1-13 is connected with the bent arm bearing seat 1-6 by a bearing, the driven plate 1-15 is connected with the sliding rod 1-16, the sliding rod 1-16 is connected with the step sliding block 1-17, the step sliding block 1-17 is hinged with the hinged arm 1-18, the hinged arm 1-18 is hinged with the step sliding block I1-19, the step sliding block I1-19 is connected with the sliding column 1-20, the sliding column 1-20 is connected with the fixed shell 1-3, the special-shaped hole 1-21 is arranged on the fixed shell 1-3, the locking mechanism 1-4 is connected with the special-shaped hole 1-21 in a sliding manner, the inner step sliding hole 1-22 is communicated with the special-shaped hole 1-21, the inner step sliding hole 1-22 is arranged in the fixed shell 1-3, the limiting rod hole 1-23 is arranged on the polishing plate 1-1, the locking mechanism 1-4 is connected with the inner step sliding hole 1-22 in a sliding manner, and the limiting rod hole 1-23 is connected with the locking mechanism 1-4 in a sliding manner; the locking mechanism 1-4 comprises a limiting rod I1-4-1, a built-in sliding disc 1-4-2, a reset spring 1-4-3, a special-shaped shaft I1-4-4, a linkage arm 1-4-5, a clamping rod 1-4-6 and a clamping seat 1-4-7, the limiting rod I1-4-1 is connected with the built-in sliding disc 1-4-2, the built-in sliding disc 1-4-2 is connected with the special-shaped shaft I1-4-4, the reset spring 1-4-3 is sleeved on the special-shaped shaft I1-4-4, the special-shaped shaft I1-4-4 is connected with the linkage arm 1-4-5, the linkage arm 1-4-5 is connected with the clamping rod 1-4-6, the clamping rod 1-4-6 is connected with the clamping seat 1-4-7, the limiting rod I1-4-1 is connected with a limiting rod hole 1-23 in a sliding manner, the built-in sliding disk 1-4-2 is connected with the inner stepped sliding hole 1-22 in a sliding manner, the reset spring 1-4-3 is arranged in the inner stepped sliding hole 1-22, the reset spring 1-4-3 is propped against the built-in sliding disk 1-4-2 and the fixed shell 1-3, when the grinding plate 1-1 is installed, an externally used rod can be inserted into the perforated circular seat 1-14, then the perforated circular seat 1-14 is rotated clockwise when viewed from the top, the perforated circular seat 1-14 can drive the connecting shaft 1-13 to rotate, the connecting shaft 1-13 can drive the adjusting wheels 1-24 to rotate, the adjusting wheels 1-24 can drive the clamping seats 1-4-7 to two sides when rotated, the clamping seat 1-4-7 can drive the linkage arm 1-4-5 to move outwards through the clamping rod 1-4-6, the linkage arm 1-4-5 can drive the limiting rod I1-4-1 to slide outwards, the reset spring 1-4-3 can be compressed in the process, then the polishing plate 1-1 is slid into the fixed shell 1-3, in the process, the wedge block 1-11 cannot hinder the ratchet 1-12 from rotating clockwise, but can prevent the ratchet 1-12 from rotating anticlockwise, so that the continuous clockwise rotation can be kept in the process and the reverse rotation cannot be carried out, the limiting rod I1-4-1 is ensured not to rebound by the reset spring 1-4-3, after the polishing plate 1-1 is confirmed to slide into the fixed shell 1-3, the limiting head 1-7 can be pulled, the limiting head 1-7 can drive the wedge block 1-11 to be separated from the ratchet wheel 1-12, and thus the reset spring 1-4-3 can rebound after losing limiting force, so that the limiting rod I1-4-1 slides into the limiting rod hole 1-23 to limit the grinding plate 1-1.

The third concrete implementation mode:

the following describes the present embodiment with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, and the present embodiment further describes the present embodiment, where the platform mechanism 2 includes a connection pipe 2-1, a negative pressure tank 2-2, a leg 2-3, a base 2-4, a leg I2-5, a clamping seat I2-6, a clamping slide hole 2-7, a return spring I2-8, a stepped slide rod I2-9, a threaded post 2-10, a threaded through hole 2-11, a support platform 2-12, a handle 2-13, a pull box 2-14, an insertion groove 2-15, a tuyere 2-16, an electric heating pipe 2-17, the connection pipe 2-1 is connected with the negative pressure tank 2-2, the leg 2-2 is connected with the negative pressure tank 2-3, the support legs 2-3 are connected with the bases 2-4, the bases 2-4 are connected with the support legs I2-5, the support legs I2-5 are connected with the support platforms 2-12, the support platforms 2-12 are connected with the negative pressure box 2-2, the clamping seats I2-6 are connected with the step slide bars I2-9, the step slide bars I2-9 are connected with the clamping slide holes 2-7 in a sliding mode, the clamping slide holes 2-7 are formed in the support platforms 2-12, the reset springs I2-8 are sleeved on the step slide bars I2-9, the reset springs I2-8 are abutted against the support platforms 2-12 and the step slide bars I2-9, the threaded columns 2-10 are connected with the threaded through holes 2-11 in a threaded mode, the threaded columns 2-10 are in contact with the clamping seats I2-6, the threaded through holes 2-11 are formed in the support platforms 2-12, the handle 2-13 is connected with the draw box 2-14, the draw box 2-14 is connected with the embedded groove 2-15 in a sliding way, the embedded groove 2-15 is opened on the negative pressure box 2-2, the air port 2-16 is arranged on the negative pressure box 2-2, the air port 2-16 connects the connecting pipe 2-1 with the negative pressure box 2-2, part of the air flow enters the connecting pipe 2-1 through the semipermeable membrane 3-11, then the air flow is blown into the draw box 2-14 through the connecting pipe 2-1 and the air port 2-16 after passing through the heating electric heating pipe 2-17, and the plate to be dried is placed into the draw box 2-14 in advance, so that the drying can be carried out.

The fourth concrete implementation mode:

the following describes the present embodiment with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, and the present embodiment further describes the present embodiment, where the drying mechanism 3 includes a curved-arm leg 3-1, a shaped support 3-2, a clamping cylinder 3-3, a clamping semicircular seat 3-4, a sliding square column 3-5, a clamping spring 3-6, a square-hole seat I3-7, a pull seat 3-8, a bearing seat A3-9, an outlet A3-10, a semi-permeable membrane 3-11, a cam 3-12, a coupling 3-13, a driving motor 3-14, a bearing seat B3-15, a sliding rod A3-16, a return spring A3-17, a unthreaded hole A3-18, a limiting seat 3-19, a return spring a coupling 3-13, and, The wind power generator comprises a stepped groove I3-20, a pulling slide hole 3-21, a negative pressure wind wheel with a shaft 3-22, a wind suction channel 3-23, an air inlet channel 3-24, an inner cavity 3-25, a bent arm support leg 3-1 connected with a support platform 2-12, a bent arm support leg 3-1 connected with a special-shaped support 3-2, a special-shaped support 3-2 connected with a clamping cylinder 3-3, a clamping semicircular seat 3-4 supported on the clamping cylinder 3-3, a clamping semicircular seat 3-4 connected with a sliding square column 3-5, a clamping spring 3-6 sleeved on the sliding square column 3-5, a clamping spring 3-6 supported on a square hole seat I3-7 and a clamping semicircular seat 3-4, a square hole seat I3-7 connected with the special-shaped support 3-2, a sliding square column 3-5 connected with a square hole seat I3-7 in a sliding manner, the sliding square column 3-5 is connected with the pulling seat 3-8, the bearing seat A3-9 is connected with the special-shaped support 3-2, the outlet A3-10 is arranged on the special-shaped support 3-2, the semipermeable membrane 3-11 is arranged at the outlet A3-10, the semipermeable membrane 3-11 is connected with the special-shaped support 3-2, the cam 3-12 is connected with the negative pressure wind wheel with shaft 3-22, the negative pressure wind wheel with shaft 3-22 is connected with the bearing seat A3-9 in a bearing way, the negative pressure wind wheel with shaft 3-22 is arranged in the inner cavity 3-25, the clamping cylinder 3-3 is communicated with the inner cavity 3-25, the negative pressure wind wheel with shaft 3-22 is connected with the driving motor 3-14 through the coupler 3-13, the bearing seat B3-15 is connected with the negative pressure wind wheel with shaft 3-22 in a bearing way, the bearing seat B3-15 is connected with the special-shaped support 3-2, the sliding rod A3-16 is connected with the special-shaped support 3-2, the sliding rod A3-16 is connected with the unthreaded hole 1-2 in a sliding way, the return spring A3-17 is sleeved on the sliding rod A3-16, the return spring A3-17 is abutted against the special-shaped support 3-2 and the fixed shell 1-3, the unthreaded hole A3-18 is arranged on the limiting sliding seat 3-19, the limiting sliding seat 3-19 is connected with the special-shaped support 3-2, the stepped groove I3-20 is arranged on the limiting sliding seat 3-19, the sliding rod 1-16 is connected with the unthreaded hole A3-18 in a sliding way, the stepped sliding block 1-17 is connected with the stepped groove I3-20 in a sliding way, the sliding hole 3-21 is pulled to be arranged on the special-shaped support 3-2, the sliding hole 3-21 is pulled to, an air suction channel 3-23 is arranged in a special-shaped support 3-2, an air inlet channel 3-24 is arranged in a special-shaped support 3-2, the air suction channel 3-23 is communicated with the air inlet channel 3-24, the air inlet channel 3-24 is communicated with an inner cavity 3-25, a connecting pipe 2-1 is connected with the special-shaped support 3-2, and the connecting pipe 2-1 is communicated with the connecting pipe 2-1. firstly, a workpiece to be polished is placed between two clamping seats I2-6, then a threaded column 2-10 is screwed, the threaded column 2-10 pushes a clamping seat I2-6 to move through the matching with a threaded through hole 2-11, so that the workpiece is clamped by the two clamping seats I2-6, and a coupler 3-13 is driven to rotate through the operation of a driving motor 3-14, the coupler 3-13 can drive the belt shaft negative pressure wind wheel 3-22 to rotate, the belt shaft negative pressure wind wheel 3-22 can drive the cam 3-12 to rotate, the cam 3-12 can drive the driven plate 1-15 to move downwards, the driven plate 1-15 can drive the step slide block 1-17 to move downwards through the slide rod 1-16, the step slide block 1-17 can drive the step slide block I1-19 to move through the articulated arm 1-18, the step slide block I1-19 can drive the fixed shell 1-3 to move through the sliding column 1-20, the fixed shell 1-3 can drive the grinding plate 1-1 to move, the fixed shell 1-3 can compress the return spring A3-17 in the process, and then under the rebound action of the return spring A3-17, the grinding plate 1-1 is reset, so that under the matching of the cam 3-12 and the reset spring A3-17, the grinding plate 1-1 can reciprocate to grind a clamped workpiece, the negative pressure wind wheel 3-22 with a shaft can form negative pressure when rotating, under the driving of the negative pressure, the air suction channel 3-23 can suck powder generated by grinding, the air inlet channel 3-24 can suck air powder, then the two kinds of powder can enter the inner cavity 3-25 from the air inlet channel 3-24, then the powder can enter a cloth bag clamped between the clamping semicircular seat 3-4 and the clamping cylinder 3-3 in advance, after the cloth bag is full, the pull seat 3-8 can be pulled outwards, the pull seat 3-8 can drive the clamping semicircular seat 3-4 to move outwards, and thus the cloth bag can be taken down, after a new cloth bag is replaced, the pulling seat 3-8 is loosened, and the clamped semicircular seat 3-4 is propped against the clamping cylinder 3-3 again under the resilience action of the clamping spring 3-6.

The fifth concrete implementation mode:

the present embodiment will be described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, and fig. 15, and the present embodiment further describes the first embodiment in which the material characteristics of the semipermeable membranes 3 to 11 are air permeable and solid impermeable.

The working principle of the device is as follows: the equipment can conveniently install and disassemble the grinding plate, when the grinding plate 1-1 is installed, an externally used rod can be inserted into the perforated circular seat 1-14, then the perforated circular seat 1-14 is rotated clockwise from top to bottom, the perforated circular seat 1-14 can drive the connecting shaft 1-13 to rotate, the connecting shaft 1-13 can drive the adjusting wheel 1-24 to rotate, the adjusting wheel 1-24 can rotate to push the clamping seat 1-4-7 to two sides, the clamping seat 1-4-7 can drive the linkage arm 1-4-5 to move outwards through the clamping rod 1-4-6, the linkage arm 1-4-5 can drive the limiting rod 1-4-1 to slide outwards, and the reset spring 1-4-3 can be compressed in the process, then the grinding plate 1-1 is slid into the fixed shell 1-3, in the process, the wedge block 1-11 does not hinder the ratchet 1-12 from clockwise rotation, but prevents the ratchet 1-12 from anticlockwise rotation, so that the continuous clockwise rotation can be kept in the process without reversal, and the limiting rod I1-4-1 is ensured not to rebound by the reset spring 1-4-3, when the grinding plate 1-1 is confirmed to be slid into the fixed shell 1-3, the limiting head 1-7 can be pulled, the limiting head 1-7 can drive the wedge block 1-11 to be separated from the ratchet 1-12, so that the reset spring 1-4-3 rebounds when losing limiting force, and the limiting rod I1-4-1 is slid into the limiting rod hole 1-23, finishing limiting on the grinding plate 1-1; the equipment can carry out polishing, a workpiece to be polished is firstly placed between two clamping seats I2-6, then a threaded column 2-10 is screwed, the threaded column 2-10 pushes the clamping seat I2-6 to move through the matching with a threaded through hole 2-11, so that the two clamping seats I2-6 can clamp the workpiece, a driving motor 3-14 operates to drive a coupler 3-13 to rotate, the coupler 3-13 drives a negative pressure wind wheel 3-22 with a shaft to rotate, the negative pressure wind wheel 3-22 with the shaft drives a cam 3-12 to rotate, the cam 3-12 rotates to drive a driven plate 1-15 to move downwards, the driven plate 1-15 drives a step slide block 1-17 to move downwards through a slide rod 1-16, the step slide block 1-17 drives a step slide block I1-19 to move through an articulated arm 1-18, the stepped sliding block I1-19 drives the fixed shell 1-3 to move through the sliding column 1-20, the fixed shell 1-3 drives the polishing plate 1-1 to move, the fixed shell 1-3 compresses the return spring A3-17 in the process, then the polishing plate 1-1 resets under the resilience action of the return spring A3-17, and thus the polishing plate 1-1 reciprocates under the matching of the cam 3-12 and the return spring A3-17, and a clamped workpiece is polished; the equipment can recover the powder generated by grinding while grinding, the negative pressure wind wheel 3-22 with the shaft can form negative pressure when rotating, under the drive of negative pressure, the air suction channels 3-23 can suck the powder generated by grinding, the air inlet channels 3-24 can suck the powder of air, then the two kinds of powder enter the inner cavity 3-25 from the air inlet channel 3-24, then the powder enters a cloth bag which is clamped between the clamping semicircular seat 3-4 and the clamping cylinder 3-3 in advance, the pulling seat 3-8 can be pulled outwards after the cloth bag is full, the pulling seat 3-8 can drive the clamping semicircular seat 3-4 to move outwards, so that the cloth bag can be taken down, a new cloth bag is replaced, the pulling seat 3-8 is loosened, under the resilience action of the clamping spring 3-6, the clamping semicircular seat 3-4 is propped against the clamping cylinder 3-3 again; the device can guide the negative pressure air to dry, part of the air flow enters the connecting pipe 2-1 through the semipermeable membrane 3-11, then passes through the connecting pipe 2-1 and the air port 2-16, passes through the heating electric heating pipe 2-17, is blown into the draw box 2-14, and the plate to be dried is placed into the draw box 2-14 in advance, so that the drying can be carried out.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (2)

1. The utility model provides a gilding is with baking plate grinding plate treatment facility, includes grinding machanism (1), platform mechanism (2), stoving mechanism (3), its characterized in that: the polishing mechanism (1) comprises a polishing plate (1-1), a unthreaded hole (1-2), a fixed shell (1-3), a locking mechanism (1-4), a hole-carrying plate (1-5), a bent arm bearing seat (1-6), a limiting head (1-7), a square hole-carrying seat (1-8), a square column (1-9), a spring (1-10), a wedge block (1-11), a ratchet wheel (1-12), a connecting shaft (1-13), a circular seat (1-14) with holes, a driven plate (1-15), a sliding rod (1-16), a stepped sliding block (1-17), an articulated arm (1-18), a stepped sliding block I (1-19), a sliding column (1-20), a special-shaped hole (1-21), an inner stepped sliding hole (1-22), A limiting rod hole (1-23) and an adjusting wheel (1-24), a polishing plate (1-1) is connected with a fixed shell (1-3) in a sliding way, a unthreaded hole (1-2) is arranged on the fixed shell (1-3), a locking mechanism (1-4) is connected with a hole plate (1-5) in a sliding way, the locking mechanism (1-4) is contacted with the adjusting wheel (1-24), the hole plate (1-5) is connected with the fixed shell (1-3), a bent arm bearing seat (1-6) is connected with the fixed shell (1-3), the bent arm bearing seat (1-6) is connected with a square hole seat (1-8), the square hole seat (1-8) is connected with a square column (1-9) in a sliding way, the square column (1-9) is connected with a limiting head (1-7), a spring (1-10) is sleeved on the square column (1-9), the spring (1-10) is supported on a square hole seat (1-8) and a wedge block (1-11), the wedge block (1-11) is connected with a square column (1-9), the wedge block (1-11) is contacted with a ratchet wheel (1-12), the ratchet wheel (1-12) is connected with a connecting shaft (1-13), the connecting shaft (1-13) is connected with a circular hole seat (1-14), the connecting shaft (1-13) is connected with a fixed shell (1-3) in a bearing way, the connecting shaft (1-13) is connected with a bent arm bearing seat (1-6) in a bearing way, a driven plate (1-15) is connected with a sliding rod (1-16), the sliding rod (1-16) is connected with a step sliding block (1-17), the step sliding block (1-17) is hinged with a hinged arm (1-18), the articulated arm (1-18) is hinged with a step slide block I (1-19), the step slide block I (1-19) is connected with a slide column (1-20), the slide column (1-20) is connected with a fixed shell (1-3), a special-shaped hole (1-21) is formed in the fixed shell (1-3), a locking mechanism (1-4) is connected with the special-shaped hole (1-21) in a sliding manner, an inner step slide hole (1-22) is communicated with the special-shaped hole (1-21), an inner step slide hole (1-22) is arranged in the fixed shell (1-3), a limit rod hole (1-23) is formed in a polishing plate (1-1), the locking mechanism (1-4) is connected with the inner step slide hole (1-22) in a sliding manner, and the limit rod hole (1-23) is connected with the locking mechanism (1-4) in a sliding manner; the locking mechanism (1-4) comprises a limiting rod I (1-4-1), a built-in sliding disc (1-4-2), a reset spring (1-4-3), a special-shaped shaft I (1-4-4), a linkage arm (1-4-5), a clamping rod (1-4-6) and a clamping seat (1-4-7), the limiting rod I (1-4-1) is connected with the built-in sliding disc (1-4-2), the built-in sliding disc (1-4-2) is connected with the special-shaped shaft I (1-4-4), the reset spring (1-4-3) is sleeved on the special-shaped shaft I (1-4-4), the special-shaped shaft I (1-4-4) is connected with the linkage arm (1-4-5), the linkage arm (1-4-5) is connected with the clamping rod (1-4-6), the clamping rod (1-4-6) is connected with the clamping seat (1-4-7), the limiting rod I (1-4-1) is in sliding connection with the limiting rod hole (1-23), the built-in sliding disc (1-4-2) is in sliding connection with the inner stepped sliding hole (1-22), the reset spring (1-4-3) is arranged in the inner stepped sliding hole (1-22), and the reset spring (1-4-3) abuts against the built-in sliding disc (1-4-2) and the fixed shell (1-3);

the platform mechanism (2) comprises a connecting pipe (2-1), a negative pressure box (2-2), supporting legs (2-3), a base (2-4), supporting legs I (2-5), a clamping seat I (2-6), clamping slide holes (2-7), a return spring I (2-8), a stepped slide rod I (2-9), threaded columns (2-10), threaded through holes (2-11), a supporting platform (2-12), handles (2-13), a pulling box (2-14), embedded grooves (2-15), air ports (2-16) and electric heating pipes (2-17), wherein the connecting pipe (2-1) is connected with the negative pressure box (2-2), the negative pressure box (2-2) is connected with the supporting legs (2-3), and the supporting legs (2-3) are connected with the base (2-4), the base (2-4) is connected with the supporting leg I (2-5), the supporting leg I (2-5) is connected with the supporting platform (2-12), the supporting platform (2-12) is connected with the negative pressure box (2-2), the clamping seat I (2-6) is connected with the step slide bar I (2-9), the step slide bar I (2-9) is connected with the clamping slide hole (2-7) in a sliding manner, the clamping slide hole (2-7) is arranged on the supporting platform (2-12), the reset spring I (2-8) is sleeved on the step slide bar I (2-9), the reset spring I (2-8) is abutted against the supporting platform (2-12) and the step slide bar I (2-9), the threaded column (2-10) is connected with the threaded through hole (2-11) in a threaded manner, the threaded column (2-10) is contacted with the clamping seat I (2-6), the threaded through hole (2-11) is arranged on the supporting platform (2-12), the handle (2-13) is connected with the pulling box (2-14), the pulling box (2-14) is connected with the embedded groove (2-15) in a sliding mode, the embedded groove (2-15) is formed in the negative pressure box (2-2), the air port (2-16) is arranged on the negative pressure box (2-2), and the connecting pipe (2-1) is communicated with the negative pressure box (2-2) through the air port (2-16);

the drying mechanism (3) comprises a bent arm supporting leg (3-1), a special-shaped support (3-2), a clamping cylinder (3-3), a clamping semicircular seat (3-4), a sliding square column (3-5), a clamping spring (3-6), a square hole seat I (3-7), a pulling seat (3-8), a bearing seat A (3-9), an outlet A (3-10), a semipermeable membrane (3-11), a cam (3-12), a coupler (3-13), a driving motor (3-14), a bearing seat B (3-15), a sliding rod A (3-16), a reset spring A (3-17), a unthreaded hole A (3-18), a limiting sliding seat (3-19), a stepped groove I (3-20), a pulling sliding hole (3-21), A negative pressure wind wheel (3-22) with a shaft, an air suction channel (3-23), an air inlet channel (3-24) and an inner cavity (3-25), wherein a bent arm supporting leg (3-1) is connected with a supporting platform (2-12), the bent arm supporting leg (3-1) is connected with a special-shaped support (3-2), the special-shaped support (3-2) is connected with a clamping cylinder (3-3), a clamping semicircular seat (3-4) is propped against the clamping cylinder (3-3), the clamping semicircular seat (3-4) is connected with a sliding square column (3-5), a clamping spring (3-6) is sleeved on the sliding square column (3-5), the clamping spring (3-6) is propped against a square hole seat I (3-7) and a clamping semicircular seat (3-4), the square hole seat I (3-7) is connected with the special-shaped support (3-2), the sliding square column (3-5) is connected with the square hole seat I (3-7) in a sliding manner, the sliding square column (3-5) is connected with the pull seat (3-8), the bearing seat A (3-9) is connected with the special-shaped support (3-2), the outlet A (3-10) is arranged on the special-shaped support (3-2), the semipermeable membrane (3-11) is arranged at the outlet A (3-10), the semipermeable membrane (3-11) is connected with the special-shaped support (3-2), the cam (3-12) is connected with the negative pressure wind wheel (3-22) with the shaft, the negative pressure wind wheel (3-22) with the shaft is connected with the bearing seat A (3-9) in a bearing manner, the negative pressure wind wheel (3-22) with the shaft is arranged in the inner cavity (3-25), the clamping cylinder (3-3) is communicated with the inner cavity (3-25), the negative pressure wind wheel (3-22) with the shaft is connected with a driving motor (3-14) through a shaft coupling (3-13), a bearing seat B (3-15) is connected with the negative pressure wind wheel (3-22) with the shaft through a bearing, the bearing seat B (3-15) is connected with a special-shaped support (3-2), a sliding rod A (3-16) is connected with the special-shaped support (3-2), the sliding rod A (3-16) is connected with a unthreaded hole (1-2) in a sliding way, a reset spring A (3-17) is sleeved on the sliding rod A (3-16), the reset spring A (3-17) is abutted against the special-shaped support (3-2) and a fixed shell (1-3), the unthreaded hole A (3-18) is opened on a limiting sliding seat (3-19), the limiting special-shaped sliding seat (3-19) is connected with the support (3-2), the stepped groove I (3-20) is arranged on the limiting sliding seat (3-19), the sliding rod (1-16) is connected with the unthreaded hole A (3-18) in a sliding way, the stepped sliding block (1-17) is connected with the stepped groove I (3-20) in a sliding way, the pulling sliding hole (3-21) is arranged on the special-shaped support (3-2), the pulling sliding hole (3-21) is connected with the sliding column (1-20) in a sliding way, the air suction channel (3-23) is arranged in the special-shaped support (3-2), the air inlet channel (3-24) is arranged in the special-shaped support (3-2), the air suction channel (3-23) is communicated with the air inlet channel (3-24), the air inlet channel (3-24) is communicated with the inner cavity (3-25), the connecting pipe (2-1) is connected with the special-shaped support (3-2), the connecting pipe (2-1) is communicated with the connecting pipe (2-1);

the grinding mechanism (1) is connected with the drying mechanism (3), and the platform mechanism (2) is connected with the drying mechanism (3).

2. A drying plate grinding processing apparatus for gold plating according to claim 1, wherein: the material characteristics of the semi-permeable membrane (3-11) are that the semi-permeable membrane is permeable to wind and impermeable to solid.

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