Background
The glass instrument is called a glass instrument. Glass instruments are used in a large number of laboratory because glass has high chemical stability, thermal stability, good transparency, certain mechanical strength and good insulating property. Glass instruments, which are manufactured using excellent properties of glass, are widely used in various laboratories, such as chemical laboratories, medical examination laboratories, biological laboratories, scientific research laboratories, and teaching laboratories.
Patent number (CN 218017670U) discloses a laboratory glassware production is with dull polish device, and the device is through setting up connecting rod, spring, inserted block, holder and fixture block, and lifting connecting rod and translation fixture block can be lifted fixture block and clamp block off, has saved time and manpower, during the installation, lifting connecting rod, loosens the connecting rod after placing the fixture block in the holder, and the in-process that the spring reset promotes the inserted block to move down, and the inserted block inserts in the fixture block, makes things convenient for the installation of fixture block, clamp block. However, when the grinding wheel grinds the glass instrument, the grinding wheel generates high heat due to friction, but the glass instrument does not have the cooling function and can be damaged due to overhigh temperature.
Disclosure of Invention
The present utility model aims to solve the above problems by providing a sanding device.
The utility model realizes the above purpose through the following technical scheme:
the utility model provides a dull polish device, includes the equipment main part, install fixture in the equipment main part, fixture upside is provided with dull polish mechanism, equipment main part rear side is connected with cooling body, cooling body includes the header tank, the welding has the filter screen in the header tank, header tank one side is provided with the pump, through pumping tube connection between pump and the header tank, the pump upside is connected with the raceway, the raceway outer lane is provided with the fixed block, the nozzle is installed to raceway one end.
Preferably, the water suction pipe is internally provided with a filter element in the water collection tank.
Preferably, the water pipe is a corrugated pipe.
Preferably, the grinding mechanism comprises a moving assembly and a grinding assembly, the upper end of the moving assembly is slidably connected with the grinding assembly, the grinding assembly comprises an L-shaped plate, a hydraulic cylinder is installed on the L-shaped plate, the lower end of the hydraulic cylinder is connected with a rotating frame, one side of the rotating frame is welded with a fixing frame, the rotating frame is rotationally connected with a mounting sleeve, an inner ring of the mounting sleeve is fixedly provided with a grinding motor, a power end of the grinding motor is connected with a connecting sleeve, and the lower side of the connecting sleeve is connected with a grinding wheel.
Preferably, the fixing block is welded on the L-shaped plate.
Preferably, one end of the water pipe passes through the fixing frame.
The beneficial effects are that: through setting up cooling body, when making the device polish glass instrument, the pump is through in the cooling liquid pump of drinking-water header is sent the raceway in, then the raceway sprays cooling liquid to the grinding wheel and glass instrument through the nozzle to cool off the instrument, avoid glass instrument because high temperature damages, the impurity that glass instrument produced of polishing can be taken away to the cooling liquid simultaneously, avoid the device fish tail glass instrument when polishing.
Detailed Description
The utility model is further described below with reference to the accompanying drawings:
as shown in fig. 1-5, the polishing device comprises a device main body 1, wherein a clamping mechanism 2 is arranged in the device main body 1, a polishing mechanism 3 is arranged on the upper side of the clamping mechanism 2, and a cooling mechanism 4 is connected to the rear side of the device main body 1;
in this embodiment: the equipment main body 1 comprises a shell 101, a supporting leg 104 is fixed on the lower side of the shell 101, a side-by-side door 102 is connected to the front side of the shell 101 through a hinge, an observation window 103 is inlaid on the side-by-side door 102, a liquid collecting groove 108 is formed in the inner wall of the lower side of the shell 101, a drain hole is formed in the liquid collecting groove 108, sliding grooves 105 are formed in two sides of the liquid collecting groove 108, a first electric sliding table 106 is fixed in the sliding grooves 105 through bolts, a first sliding block 107 is connected to the upper side of the first electric sliding table 106 in a sliding manner, a partition plate 109 is welded between the sliding grooves 105 and the liquid collecting groove 108, and cooling liquid is prevented from entering the sliding grooves 105 to cause short circuit of the first electric sliding table 106; through setting up shell 101 and opening to the door 102, when making the device polish the glassware, shell 101 and opening to the door 102 stop that the coolant liquid splashes to the outside, avoid the coolant liquid to pollute operational environment and make dirty workman's clothes, the coolant liquid that the liquid collecting tank 108 splashes is collected simultaneously, is convenient for discharge into header tank 401 through the wash port to make the coolant liquid can carry out recycle.
In this embodiment: the clamping mechanism 2 comprises a driving motor 201, the driving motor 201 is arranged on the lower side of the shell 101, the power end of the driving motor 201 is connected with a transmission shaft 202, the transmission shaft 202 is rotatably connected with the shell 101 through a bearing, a rotating plate 203 is fixed at the upper end of the transmission shaft 202, fixed seats 204 are arranged on two sides of the rotating plate 203, a rotating motor 205 is arranged on the upper side of one side of the fixed seats 204, telescopic rods 206 are inlaid at the upper ends of the fixed seats 204 on two sides, the telescopic rods 206 on two sides are symmetrically arranged, one end, far away from the fixed seats 204, of each telescopic rod 206 is connected with a mounting frame 207, a supporting frame 208 is welded on the upper side of the mounting frame 207, a screw 209 is connected in the supporting frame 208 through threads, a rotating handle is arranged at the upper end of the screw 209, a bolt is rotatably connected with the lower end of the screw 209, a clamping block 210 is slidably connected in the supporting frame 208, jacks are arranged in the mounting frame 207 and the clamping block 210, and the bolts at the lower end of the screw 209 are convenient to limit the clamping block 210; through setting up mounting bracket 207 and screw 209, when making the workman change clamp splice 210, the workman rotates screw 209 through the rotation handle, makes screw 209 drive the bayonet catch through the screw thread effect and rises to remove the spacing to clamp splice 210. After the clamping block 210 clamps the glass instrument, the driving motor 201 or the rotating motor 205 is started according to the rotation direction of the instrument, the driving motor 201 drives the rotating plate 203 to rotate through the transmission shaft 202, so that the rotating plate 203 drives the fixing seat 204 and the telescopic rod 206 to horizontally rotate, and the rotating motor 205 drives the mounting frame 207 and the instrument to vertically rotate through the telescopic rod 206, so that the practical range of the device is enlarged.
In this embodiment: the grinding mechanism 3 comprises a moving assembly and a grinding assembly, the moving assembly comprises a portal frame 301, the portal frame 301 is fixed on a first sliding block 107, a second electric sliding table 302 is fixed on the front side of the upper end of the portal frame 301 through bolts, the front side of the second electric sliding table 302 is slidingly connected with a second sliding block 303, the front side of the second sliding block 303 is connected with the grinding assembly, the grinding assembly comprises an L-shaped plate 304, a hydraulic cylinder 305 is mounted on the L-shaped plate 304, the lower end of the hydraulic cylinder 305 is connected with a rotating frame 306, one side of the rotating frame 306 is welded with a fixing frame 312, the fixing frame 312 is convenient for fixing a water conveying pipe 405, a turnover motor 307 is mounted on the rear side of the rotating frame 306, a mounting sleeve 308 is connected in a rotating mode, a grinding motor 309 is fixed on the inner ring of the mounting sleeve 308, a power end of the grinding motor 309 is connected with a connecting sleeve 310, and the lower side of the connecting sleeve 310 is connected with a grinding wheel 311; through setting up the removal subassembly, when making grinding wheel 311 polish the glassware, the removal subassembly waits to grind wheel 311 and removes according to the needs of polishing to make grinding wheel 311 can polish the glassware comprehensively. When grinding wheel 311 polishes, there is recess or arch on the glassware surface, and upset motor 307 drives installation cover 308 according to glassware surface needs of polishing and rotates, makes installation cover 308 rotate through grinding motor 309 and adapter sleeve 310 to adjust the angle of grinding wheel 311 and instrument, make the device can satisfy and polish uneven instrument surface.
In this embodiment: the cooling mechanism 4 comprises a water collection tank 401, the water collection tank 401 is placed below a drain hole, a filter screen 402 is welded in the water collection tank 401, a pump 404 is arranged on one side of the water collection tank 401, the pump 404 is connected with the water collection tank 401 through a water pumping pipe 403, a filter element is arranged in the water collection tank 401 through the water pumping pipe 403, the filter element filters cooling liquid, damage to impurities in the cooling liquid caused by the pump 404 is avoided, a water delivery pipe 405 is connected to the upper side of the pump 404, the water delivery pipe 405 is a corrugated pipe, the upper end of the water delivery pipe 405 penetrates through a shell 101 and is connected with a fixing frame 312, a fixing block 406 is arranged on the outer ring of the water delivery pipe 405, the fixing block 406 is welded on an L-shaped plate 304, and a nozzle 407 is arranged at one end, close to a grinding wheel 311, of the water delivery pipe 405; through setting up cooling body 4, when making the device polish glass instrument, in pump 404 pumps the coolant liquid in the header tank 401 to raceway 405 through drinking-water pipe 403, then raceway 405 sprays coolant liquid to grinding wheel 311 and glass instrument through nozzle 407 to cool off the instrument, avoid glass instrument because high temperature damages, the impurity that glass instrument produced of polishing can be taken away to the coolant liquid simultaneously, avoid the device fish tail glass instrument when polishing.
In the above-mentioned structure, when the device is required to polish the glass instrument, at first according to instrument type and the clamp splice 210 of mode change matching of polishing, put clamp splice 210 into in the mounting bracket 207, the workman rotates screw 209 through the rotation handle, makes screw 209 drive the bolt through the screw action and descends, makes the bolt insert in the jack of mounting bracket 207 and clamp splice 210 to carry out spacing to clamp splice 210. After the glass instrument is placed between the two side clamping blocks 210, the telescopic rod 206 drives the two side mounting frames 207 to be close to the instrument through the movable end, so that the two side clamping blocks 210 can clamp the instrument, after the clamping blocks 210 clamp the glass instrument, the driving motor 201 or the rotating motor 205 is started according to the rotation direction of the instrument, the driving motor 201 drives the rotating plate 203 to rotate through the transmission shaft 202, the rotating plate 203 drives the fixing seat 204 and the telescopic rod 206 to horizontally rotate, and the rotating motor 205 drives the mounting frames 207 and the instrument to vertically rotate through the telescopic rod 206, so that the practical range of the device is enlarged. When the glass instrument is polished, the first electric sliding table 106 drives the clamping mechanism 2 to move back and forth through the first sliding block 107, meanwhile, the second electric sliding table 302 drives the polishing assembly to move left and right through the second sliding block 303, the polishing wheel 311 moves to the upper side of the glass instrument, then the hydraulic cylinder 305 drives the polishing motor 309 to descend through the rotating frame 306, the polishing wheel 311 is close to the instrument, when the polishing wheel 311 polishes the glass instrument, grooves or protrusions exist on the surface of the glass instrument, the overturning motor 307 drives the mounting sleeve 308 to rotate according to the polishing requirement of the surface of the glass instrument, the mounting sleeve 308 rotates through the polishing motor 309 and the connecting sleeve 310, and therefore the angle between the polishing wheel 311 and the instrument is adjusted, and the device can polish the surface of the uneven instrument. In the process of polishing the glass instrument by the device, the pump 404 pumps cooling liquid in the water collection tank 401 into the water delivery pipe 405 through the water pumping pipe 403, and then the water delivery pipe 405 sprays the cooling liquid onto the grinding wheel 311 and the glass instrument through the nozzle 407, so that the instrument is cooled, the glass instrument is prevented from being damaged due to high temperature, and meanwhile, the cooling liquid can take away impurities generated by polishing the glass instrument, and the glass instrument is prevented from being scratched by the device during polishing.
The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims. The scope of the utility model is defined by the appended claims and their equivalents.