CN210281827U

CN210281827U - Water-cooling sampling grinding wheel slicer device

Info

Publication number: CN210281827U
Application number: CN201921433792.6U
Authority: CN
Inventors: 吴建军; 曹征宽
Original assignee: Chongqing Iron and Steel Group Co Ltd
Current assignee: Chongqing Iron and Steel Group Co Ltd
Priority date: 2019-08-30
Filing date: 2019-08-30
Publication date: 2020-04-10
Anticipated expiration: 2029-08-30

Abstract

The utility model discloses a water-cooling sample abrasive wheel slicer device, including base and abrasive wheel slicer, the base is installed subaerial through four stand horizontal installations, and abrasive wheel slicer installs on the base, be equipped with on the base and be used for pressing from both sides tight spacing anchor clamps unit and be used for the water cooling unit to steel sample cooling to the steel sample, the anchor clamps unit is located the base under the emery wheel, the water cooling unit includes outlet pipe, water pump and storage water tank, be equipped with the coolant liquid in the storage water tank and be located the base below, the water pump is located the storage water tank and is linked together with the storage water tank, outlet pipe one end is connected with the water pump, and the outlet pipe other end upwards passes and stretches out in the base towards the direction of anchor clamps unit, and the free end of. The utility model discloses the system appearance of well slicer device is efficient, can also collect the metal disintegrating slag at steel cutting in-process, reduces the dust, non-staining operation environment.

Description

Water-cooling sampling grinding wheel slicer device

Technical Field

The utility model relates to a steel sampling equipment field, concretely relates to water-cooling sample abrasive wheel slicer device.

Background

Before a large batch of steel becomes a product, sampling inspection is needed, namely, a part of the steel is taken down from the large batch of steel, and then physical and chemical testing work of various indexes is carried out on the steel.

At present, most steel enterprises adopt a metal band sawing machine to saw and cut, namely round and polygonal steel billets and the like are sampled by adopting a metal band sawing machine device, and the mode of sampling the steel has the following defects: 1. the sampling time is long by using a metal band sawing machine sawing device, which is limited by the sawing process itself; 2. in the process of sawing the sample, the saw blade is consumed greatly, so that the problem of high cost exists; 3. the cutting surfaces of some grades of steel billets are easy to crack or work harden, so that the physical and chemical tests of the test samples cannot truly reflect the mechanical properties of the materials.

If on-the-spot traditional abrasive wheel slicer that adopts cuts the sample, though the abrasive machine is fast to the cutting speed of steel, the sampling efficiency of cutting steel sample has obtained the improvement, but the sample can be because of sand cutting high temperature effect produces the sclerosis layer in cutting process, can influence the experimental data that follow-up sample was the physics and chemistry experiment, increase the error of experiment result, the event still must carry out secondary operation and gets rid of this sclerosis layer, the complexity of sample work has been increased, and the metal disintegrating slag that the steel cutting produced splashes everywhere, be difficult to collect, can influence indoor operational environment, therefore, the urgent need one kind can guarantee that the cutting efficiency of system appearance is high, can carry out the abrasive wheel slicer device of synchronous collection to the metal disintegrating slag and seem to be particularly important when can not influence the atress performance of follow-up test steel.

SUMMERY OF THE UTILITY MODEL

To the not enough of above-mentioned prior art, the utility model aims to solve the technical problem that: the utility model provides a water-cooling sample abrasive wheel slicer device, this slicer device's system appearance is efficient, can also collect the metal disintegrating slag at steel cutting in-process, reduces the dust, non-staining operational environment.

In order to solve the technical problem, the utility model discloses a following technical scheme:

the utility model provides a water-cooling sample abrasive wheel slicer device, includes base and abrasive wheel slicer, and the base is installed subaerial through four stand horizontal installations, and abrasive wheel slicer installs on the base, be equipped with on the base and be used for pressing from both sides tight spacing anchor clamps unit and be used for the water cooling unit to steel sample cooling, the anchor clamps unit is located the base under the emery wheel, the water cooling unit includes outlet pipe, water pump and storage water tank, be equipped with the coolant liquid in the storage water tank and be located the cavity that four stands in base below formed, the water pump is located the storage water tank and is linked together with the storage water tank, outlet pipe one end is connected with the water pump, and the outlet pipe other end upwards passes and stretches out in the base orientation of anchor clamps unit, and the free end of.

In the using process of the utility model, the steel sample is placed in the clamp unit on the base to be clamped tightly, the grinding wheel of the grinding wheel slicer is lowered to a certain height and is aligned with the steel sample, then starting a motor, driving the slicing grinding wheel to rotate by the motor and preparing to cut the steel sample, opening a water pump, adjusting the angle of the atomizing nozzle to enable the atomizing nozzle to face the direction of the steel sample in the clamp unit, the cooling liquid sprayed by the atomizing nozzle is high-pressure fog-shaped through the arrangement of the water pump, the flow speed is high, the fog-shaped cooling liquid is sprayed to the steel sample, cooling the steel sample being cut by the grinding wheel to ensure that the steel sample is not always in a high-temperature state during cutting, the atomized cooling liquid cools the steel sample point to point, so that the steel sample is not easy to crack or work hardening, and the stress performance of the steel to be tested subsequently is not influenced; the atomized cooling liquid has a directional airflow direction, so that metal slag generated in the cutting process of the steel sample can be guided to the flowing direction of the airflow, and the metal slag is prevented from splashing around, so that the metal slag can be collected conveniently after being gathered towards the lower part of the airflow; compared with the traditional saw cutting machine, the grinding wheel slicing machine has high cutting efficiency, so that the cutting time of a steel sample is shortened, and when the steel sample is cut, the cooling effect of spraying the foggy cooling liquid to the steel sample is ideal, a metal hardened layer cannot be generated, so that the prepared steel sample can truly reflect the mechanical property index of the material, and meanwhile, the foggy cooling liquid is beneficial to reducing dust and cannot pollute the operating environment.

Preferably, the part of the water outlet pipe extending out of the base is a metal corrugated pipe so as to adjust the orientation and the telescopic length of the atomizing nozzle.

Like this, stretch out the part that stretches out in the base through the outlet pipe and set up to corrugated metal pipe, corrugated metal pipe has irregular turn and flexible characteristic, conveniently adjusts atomizing nozzle's orientation and flexible length like this, can finely tune the spray angle of coolant liquid along with the cutting progress degree of steel sample to better carry out cooling to the steel sample.

As optimization, a disintegrating slag collecting bin is further arranged above the base and is positioned on the opposite side of the atomizing nozzle relative to the clamp unit; one side of the slag collecting bin, which faces the atomizing nozzle, is provided with an opening for blocking and collecting cooling liquid sprayed by the atomizing nozzle; a return pipe communicated with the water storage tank is further arranged on the base between the slag collecting bin and the clamp unit, and a bottom plate of the slag collecting bin and the base are arranged at a certain inclination so as to facilitate the cooling liquid in the slag collecting bin to reversely flow back to the return pipe; the mouth of the return pipe is provided with a screen used for filtering metal slag carried in the cooling liquid.

Like this, can block atomizing nozzle spun coolant liquid through setting up disintegrating slag collecting bin, the coolant liquid is smugglied metal disintegrating slag secretly and is got into disintegrating slag collecting bin back, and the disintegrating slag collecting bin's bottom plate is certain inclination setting with the base, the coolant liquid flows back to back flow department through disintegrating slag collecting bin, still be provided with the screen cloth on the back flow, can filter metal disintegrating slag, consequently disintegrating slag collecting bin is through having certain collection effect to metal disintegrating slag, can carry out the primary separation with coolant liquid and metal disintegrating slag, and lead the coolant liquid to the water storage tank in through the back flow.

Preferably, a filter box is further arranged between the return pipe and the water storage tank, and a filter screen for filtering metal slag carried in the cooling liquid is arranged in the filter box.

Like this, because collect the storehouse through the disintegrating slag and to the prefilter back of metal disintegrating slag, still have some metal disintegrating slag to enter into the water storage tank along with the coolant liquid in together, through still be provided with the rose box between backward flow mouth and water storage tank, can further filter the metal disintegrating slag in the coolant liquid, make the coolant liquid that finally enters into in the water storage tank like this not contain the metal disintegrating slag, make things convenient for hydroenergy in the water storage tank to cool off the steel experiment under the effect of water pump again, play the used circulation of coolant liquid.

Preferably, a circle of closed water baffle is arranged around the upper surface of the base to prevent the cooling liquid from flowing outwards.

Therefore, the cooling liquid can be prevented from splashing and overflowing to the outside of the base by arranging the water baffle on the base.

As optimization, the clamp unit comprises a clamp guide rail, a clamp fixing seat, a clamp moving seat, a lead screw and two mounting blocks, the clamp guide rail is horizontally laid on the base, the clamp fixing seat is fixedly arranged on the base and is positioned right below the slicing grinder, and the clamp moving seat is in sliding fit on the clamp guide rail; one end of the lead screw is connected with a driving mechanism, and the middle position of the clamp moving seat is horizontally sleeved on the lead screw through a threaded hole and is parallel to the clamp fixing seat, so that the clamp moving seat is close to or far away from the clamp fixing seat along the axial direction of the lead screw when the lead screw rotates; the opposite sides of the clamp fixing seat and the clamp moving seat are provided with the same rectangular mounting grooves, the two mounting blocks are respectively mounted in the mounting grooves on the clamp fixing seat and the clamp moving seat, the side surfaces of the two mounting blocks are respectively provided with a V-shaped clamping groove, and the two V-shaped clamping grooves are arranged oppositely so as to enable the two V-shaped clamping grooves to be in a closed state when approaching for clamping the sample pipe; the clamp fixing seat and the clamp moving seat are provided with the abdicating grooves which are positioned on the same straight line, the abdicating grooves are used for the grinding wheel sheet to be inserted when the steel sample is cut downwards, and the abdicating grooves are communicated with the V-shaped clamping grooves.

Like this, it slides on the anchor clamps guide rail to rotate the drive anchor clamps through the lead screw, make anchor clamps remove the seat and draw close the back with the anchor clamps fixing base and constitute anchor clamps, then the installation piece is installed on corresponding anchor clamps, V clamp through seting up on the installation piece side holds the groove, two V clamp hold the groove just to setting up, press from both sides tight the sample pipe fitting, because the diameter of different batches of steel sample is different, consequently, the V-arrangement constant head tank on the installation piece can not satisfy the fixed of the steel sample of all models, consequently, need change the installation piece, there is the V-arrangement constant head tank of corresponding model on the different installation pieces, come to press from both sides tight corresponding steel sample, thereby make the steel sample can not remove when the cutting.

Preferably, the fixture fixing seat and the mounting block and the fixture moving seat and the mounting block are fixedly connected through bolts.

Therefore, the mounting block can be conveniently replaced by connecting and fixing the mounting block through the bolt.

To sum up, the beneficial effects of the utility model reside in that: the utility model discloses in, the cutting efficiency of abrasive wheel slicer self is high for traditional saw cutting machine, the cutting time of steel sample has been shortened like this, and when cutting the steel sample, through spraying vaporific coolant liquid to the cooling effect ideal of steel sample, can not produce metal hardening layer, make the steel sample of preparation can the real mechanical properties index of reflection material itself, vaporific coolant liquid not only can be when cutting the cooling to the steel sample simultaneously, and the coolant liquid that flows at a high speed can be introduced the metal disintegrating slag that the cutting produced to the disintegrating slag and collect the storehouse, accomplish the collection to the metal disintegrating slag, be favorable to reducing the dust, can not pollute the operation environment.

Drawings

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be described in further detail with reference to the accompanying drawings, in which:

fig. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic structural view of the gripper unit of fig. 1.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Reference numerals in the drawings of the specification include: the grinding wheel type slag crusher comprises a base 1, a slag collecting bin 2, a return pipe 3, a rack 4, a motor 5, a main shaft 6, a grinding wheel 7, an atomizing nozzle 8, a water outlet pipe 9, a screw rod 10, a hand wheel 11, a mounting block 12, a water baffle 13, a abdication groove 14, a clamp guide rail 15, a water storage tank 17, a water pump 18, a filter tank 20, a clamp fixing seat 21 and a clamp moving seat 22.

A water-cooling sampling grinding wheel slicer device in the present embodiment, as shown in fig. 1 and fig. 2, includes a base 1 and a grinding wheel slicer, the base 1 is horizontally installed on the ground through four columns, the grinding wheel slicer is installed on the base 1, the grinding wheel slicer includes a frame 4, a main shaft 6, a grinding wheel 7 and a motor 5, the frame 4 is fixedly installed on the base, the main shaft of the grinding wheel slicer is fixed on the frame 4 through a bearing, the grinding wheel is installed at the shaft end of the top of the frame 4, the motor 5 is installed on the frame 4 and is in transmission connection with the main shaft 6 through a belt pulley; be equipped with on the base 1 and be used for pressing from both sides the water cooling unit who presss from both sides tight spacing anchor clamps unit and be used for cooling to the steel sample, the anchor clamps unit is located the emery wheel on the base under, the water cooling unit includes outlet pipe 9, water pump 18 and storage water tank 17, be equipped with the coolant liquid in the storage water tank 17 and be located the cavity that four stands in base 1 below formed, water pump 18 is located storage water tank 17 and is linked together with storage water tank 17, outlet pipe 9 one end is connected with water pump 18, and the outlet pipe 9 other end upwards passes and stretches out in the direction of base 1 towards the anchor clamps unit, and the free end of outlet pipe 9 is connected with atomizing nozzle 8.

In the use process of the utility model, the steel sample is placed in the clamp unit on the base 1 and clamped tightly, the grinding wheel of the grinding wheel slicer is lowered to a certain height and aligned with the steel sample, then the motor 5 is started, the motor 5 drives the slicing grinding wheel to rotate and prepare to cut the steel sample, at the moment, the water pump 18 is opened, the angle of the atomizing nozzle 8 is adjusted to enable the atomizing nozzle to face the direction of the steel sample in the clamp unit, through the arrangement of the water pump 18, the cooling liquid sprayed by the atomizing nozzle 8 is high-pressure vaporific, the flow speed is fast, the vaporific cooling liquid is aligned with the steel sample to spray, the steel sample being cut by the grinding wheel is cooled, the steel sample can not be in a high-temperature state all the time when being cut, thus the vaporific cooling liquid carries out point-to-point cooling on the steel sample, the steel sample can not, thereby not influencing the stress performance of the steel sample to be tested subsequently; the atomized cooling liquid has a directional airflow direction, and can guide the metal slag generated in the cutting process of the steel sample to the rear of the flow direction of the airflow, so that the metal slag can be prevented from splashing around, and the metal slag which moves with the airflow and gathers behind the airflow can be collected conveniently; compared with the traditional saw cutting machine, the grinding wheel slicing machine has high cutting efficiency, so that the cutting time of a steel sample is shortened, and when the steel sample is cut, the cooling effect of spraying the foggy cooling liquid to the steel sample is ideal, a metal hardened layer cannot be generated, so that the prepared steel sample can truly reflect the mechanical property index of the material, and meanwhile, the foggy cooling liquid is beneficial to reducing dust and cannot pollute the operating environment.

In a specific embodiment, the part of the water outlet pipe 9 extending above the base 1 is a metal corrugated pipe, so as to adjust the orientation and the telescopic length of the atomizing nozzle 8.

Like this, through stretch out outlet pipe 9 in the part of base 1 and set up to corrugated metal pipe, corrugated metal pipe has irregular turn and flexible characteristic, conveniently adjusts atomizing nozzle 8's orientation and flexible length like this, can finely tune the spray angle of coolant liquid along with the cutting progress degree of steel sample to better carry out cooling to the steel sample.

In a specific embodiment, a slag collecting bin 2 is further arranged above the base 1, and the slag collecting bin 2 is located on the opposite side of the atomizing nozzle 8 relative to the clamp unit; one side of the slag collecting bin 2 facing the atomizing nozzle 8 is provided with an opening for blocking and collecting the cooling liquid sprayed by the atomizing nozzle 8; a return pipe 3 communicated with a water storage tank 17 is further arranged on the base 1 between the slag collecting bin 2 and the clamp unit, and a bottom plate of the slag collecting bin 2 and the base are arranged at a certain inclination so as to facilitate the cooling liquid in the slag collecting bin 2 to reversely flow back to the return pipe 3; the inclination of the bottom plate of the slag collecting bin 2 is smaller, so that only the cooling liquid can flow back to the return pipe, the metal slag is accumulated in the slag collecting bin, and the metal slag in the slag collecting bin 2 is cleaned at regular time; the mouth of the return pipe 3 is provided with a screen used for filtering metal slag carried in the cooling liquid; the periphery of the opening of the return pipe 3 is inclined to run along a slope, so that the cooling liquid around the opening of the return pipe 3 can conveniently flow into the return pipe.

Like this, can block 8 spun coolants of atomizing nozzle through setting up disintegrating slag collecting bin 2, the cooling liquid is smugglied metal disintegrating slag secretly and is got into disintegrating slag collecting bin 2 back, and disintegrating slag collecting bin 2's bottom plate is certain inclination setting with the base, the cooling liquid is collected bin 2 through disintegrating slag and is flowed back 3 departments of back flow, still be provided with the screen cloth on the back flow 3, can filter metal disintegrating slag, consequently disintegrating slag collecting bin 2 is through having certain collection effect to metal disintegrating slag, can carry out the primary separation with cooling liquid and metal disintegrating slag, and lead the cooling liquid to in the storage water tank 17 through back flow 3.

In the specific embodiment, a filter tank 20 is further disposed between the return pipe 3 and the water storage tank 17, and a filter screen for filtering metal debris carried in the coolant is disposed in the filter tank 20.

Like this, because gather the prefilter back of storehouse 2 to the metal disintegrating slag through the disintegrating slag, still have some metal disintegrating slag to enter into the storage water tank 17 along with the coolant liquid together, through still be provided with rose box 20 between backward flow mouth and storage water tank 17, can further filter the metal disintegrating slag in the coolant liquid, the coolant liquid that makes finally enter into in the storage water tank 17 does not contain the metal disintegrating slag like this, make things convenient for the water in the storage water tank 17 can be once more under the effect of water pump 18 to cool off steel experiment, play the used circulation of coolant liquid.

In the embodiment, a ring of closed water baffles 13 are arranged around the upper surface of the base to prevent the outflow of the cooling liquid.

Thus, by providing the water guard 13 on the base 1, the coolant can be prevented from splashing and overflowing outside the base.

In a specific embodiment, the clamp unit comprises a clamp guide rail 15, a clamp fixing seat 21, a clamp moving seat 22, a lead screw 10 and two mounting blocks 12, wherein the clamp guide rail 15 is horizontally laid on the base, the clamp fixing seat 21 is fixedly arranged on the base and is positioned right below the slicing grinder, and the clamp moving seat 22 is in sliding fit on the clamp guide rail 15; one end of the screw rod 10 is connected with a driving mechanism, the driving mechanism can be a driving motor or can be manually rotated, the outer end of the screw rod 10 is connected with a hand wheel 11, and the hand wheel 11 can be manually rotated to drive the screw rod 10 to rotate; the middle position of the clamp moving seat 22 is horizontally sleeved on the lead screw 10 through a threaded hole and is parallel to the clamp fixing seat 21, so that the clamp moving seat 22 is close to or far away from the clamp fixing seat 21 along the axial direction of the lead screw 10 when the lead screw 10 rotates; the opposite sides of the clamp fixing seat 21 and the clamp moving seat 22 are provided with the same rectangular mounting grooves, the two mounting blocks 12 are respectively mounted in the mounting grooves on the clamp fixing seat 21 and the clamp moving seat 22, the side surfaces of the two mounting blocks 12 are respectively provided with a V-shaped clamping groove, and the two V-shaped clamping grooves are arranged oppositely so as to be closed when the two V-shaped clamping grooves are close to each other for clamping the sample pipe; the upper parts of the clamp fixing seat 21 and the clamp moving seat 22 are provided with the abdicating groove 14 which is positioned on the same straight line, the abdicating groove 14 is inserted when the grinding wheel sheet 7 downwards cuts a steel sample, and the abdicating groove 14 is communicated with the V-shaped clamping groove.

Like this, rotate through lead screw 10 and drive anchor clamps and remove seat 22 and slide on anchor clamps guide rail 15, make anchor clamps remove seat 22 and form a complete anchor clamps after drawing close with anchor clamps fixing base 21, then two installation pieces 12 are installed respectively on corresponding anchor clamps remove seat 22 and anchor clamps fixing base 21, V-shaped through seting up on the installation piece 12 side presss from both sides the groove, two V-shaped clamp grooves are just right to setting up, press from both sides the sample pipe fitting tightly, because the diameter of different batches of steel sample is different, consequently, the V-shaped constant head tank on the installation piece 12 can not satisfy the fixed of the steel sample of all models, consequently, need to change installation piece 12, there is the V-shaped constant head tank of corresponding model on the different installation pieces 12, come to press from both sides tight corresponding steel sample, thereby make the steel sample can not remove when the.

In specific embodiments, the cooling liquid can be water or emulsion.

In a specific implementation process, the fixture fixing seat 21 and the mounting block 12, and the fixture moving seat 22 and the mounting block 12 are all fixed by bolts.

In this way, the replacement of the mounting block 12 can be facilitated by the bolted fixation.

Finally, it is noted that the above-mentioned embodiments illustrate rather than limit the invention, and that, while the invention has been described with reference to preferred embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims

1. The utility model provides a water-cooling sample abrasive wheel slicer device, includes base and abrasive wheel slicer, and the base is through four stand horizontal installation subaerial, and abrasive wheel slicer installs on the base its characterized in that: be equipped with on the base and be used for pressing from both sides tight spacing anchor clamps unit and be used for the water cooling unit to steel sample cooling to the steel sample, the anchor clamps unit is located the emery wheel on the base under, the water cooling unit includes outlet pipe, water pump and storage water tank, be equipped with the coolant liquid in the storage water tank and be located the cavity that four stands in base below formed, the water pump is located on the storage water tank and is linked together with the storage water tank, outlet pipe one end is connected with the water pump, and the outlet pipe other end upwards passes and stretches out in the base towards the direction of anchor clamps unit, and the free end of outlet pipe is connected with.

2. The water-cooled sampling wheel slicer apparatus of claim 1, wherein: the part of the water outlet pipe extending out of the upper part of the base is a metal corrugated pipe so as to adjust the orientation and the telescopic length of the atomizing nozzle.

3. The water-cooled sampling wheel slicer apparatus of claim 1, wherein: a slag collecting bin is also arranged above the base and is positioned at one side of the atomizing nozzle opposite to the clamp unit; one side of the slag collecting bin, which faces the atomizing nozzle, is provided with an opening for blocking and collecting cooling liquid sprayed by the atomizing nozzle; a return pipe communicated with the water storage tank is further arranged on the base between the slag collecting bin and the clamp unit, and a bottom plate of the slag collecting bin and the base are arranged at a certain inclination so as to facilitate the cooling liquid in the slag collecting bin to reversely flow back to the return pipe; the mouth of the return pipe is provided with a screen used for filtering metal slag carried in the cooling liquid.

4. The water-cooled sampling wheel slicer apparatus of claim 3, wherein: and a filter box is also arranged between the return pipe and the water storage tank, and a filter screen for filtering metal slag carried in the cooling liquid is arranged in the filter box.

5. The water-cooled sampling wheel slicer apparatus of claim 3, wherein: and a circle of closed water baffle is arranged around the upper surface of the base to prevent the cooling liquid from flowing outwards.

6. The water-cooled sampling wheel slicer apparatus of claim 1, wherein: the clamp unit comprises a clamp guide rail, a clamp fixing seat, a clamp moving seat, a lead screw and two mounting blocks, the clamp guide rail is horizontally laid on the base, the clamp fixing seat is fixedly arranged on the base and is positioned right below the slicing grinder, and the clamp moving seat is in sliding fit on the clamp guide rail; one end of the lead screw is connected with a driving mechanism, and the middle position of the clamp moving seat is horizontally sleeved on the lead screw through a threaded hole and is parallel to the clamp fixing seat, so that the clamp moving seat is close to or far away from the clamp fixing seat along the axial direction of the lead screw when the lead screw rotates; the opposite sides of the clamp fixing seat and the clamp moving seat are provided with the same rectangular mounting grooves, the two mounting blocks are respectively mounted in the mounting grooves on the clamp fixing seat and the clamp moving seat, the side surfaces of the two mounting blocks are respectively provided with a V-shaped clamping groove, and the two V-shaped clamping grooves are arranged oppositely so as to enable the two V-shaped clamping grooves to be in a closed state when approaching for clamping a steel sample; the clamp fixing seat and the clamp moving seat are provided with the abdicating grooves which are positioned on the same straight line, the abdicating grooves are used for the grinding wheel sheet to be inserted when the steel sample is cut downwards, and the abdicating grooves are communicated with the V-shaped clamping grooves.

7. The water-cooled sampling wheel slicer apparatus of claim 6, wherein: the clamp fixing seat and the mounting block as well as the clamp moving seat and the mounting block are fixedly connected through bolts.