CN114935473B - Tungsten cobalt alloy powder sampling detection mechanism - Google Patents

Abstract

The invention discloses a tungsten-cobalt alloy powder sampling and detecting mechanism, which relates to the technical field of alloy powder sampling and detecting, and comprises a sampler, wherein the sampler comprises a sampling tube and a sampling rod, the first end of the sampling tube is positioned in a tungsten-cobalt alloy powder container and is provided with a sampling inlet, the second end of the sampling tube is positioned outside the container and is provided with a sampling outlet, the sampling rod is movably embedded in the sampling rod, and the sampling rod is provided with a sampling groove, and the sampling mechanism also comprises: and the composite adjusting mechanism is used for driving the sampling rod to adjust in a reciprocating manner in the sampling tube. According to the invention, through the combined design of the sampling tube and the sampling rod, and the composite driving mechanism is arranged to drive the sampling rod to carry out composite reciprocating adjustment, automatic continuous sampling is realized according to actual needs, manual operation of workers is not required, the use is convenient, and the composite adjustment of linear reciprocating adjustment and axial rotation reciprocating adjustment is completed through single linear driving of the electric control telescopic rod.

Description

Tungsten cobalt alloy powder sampling detection mechanism

Technical Field

The invention relates to the technical field of alloy powder sampling detection, in particular to a tungsten-cobalt alloy powder sampling detection mechanism.

Background

It is a new process combining traditional powder metallurgy and precision forging, and combines the advantages of both them, and can prepare powder forging with density close to material theoretical density, and overcomes the defect of low density of ordinary powder metallurgy parts, and makes some physical and mechanical properties of powder forging reach or even exceed the level of ordinary forging, at the same time, it also retains the advantages of ordinary powder metallurgy process of less chips and no chips. The tungsten-cobalt alloy powder is required to be granulated to obtain alloy powder when hard alloy production is carried out, then the alloy powder is forged and formed to obtain a blank, the alloy powder is required to be sampled and detected when the tungsten-cobalt alloy powder is granulated and processed, so as to analyze whether the proportion of each component of the alloy powder is uniform and whether the granularity of the alloy powder meets the requirement, thereby realizing the purpose of detecting from the source and ensuring the quality of the blank after production, and the tungsten-cobalt alloy powder sampling and detecting mechanism is a device for sampling and detecting the alloy powder.

For example, in the patent of the invention of chinese patent publication No. CN105136517A, entitled "a powder sampler", the powder sampler includes a sampling rod, the sampling rod is hollow, a longitudinal shallow groove is provided on the outer wall of the sampling rod along the central line direction of the sampling rod, an annular shallow groove group is provided on the outer wall of the sampling rod, a through groove is provided on the wall of the sampling rod between the annular shallow groove groups and is communicated with the hollow part of the sampling rod, and the powder sampler cover is sleeved on the sampling rod between the annular shallow groove groups and is matched with the through groove. The whole powder sampler cover is of a tubular structure with a semicircular cross section.

Like the above-mentioned application is the same, current powder sampler is mostly body and thief rod constitution, the thief rod activity is pegged graft on the body, and seted up the sample connection that the cooperation sample connection used on the body, during the use, need the staff manual to rotate the thief rod and make sample connection and sample connection counterpoint and realize the sample, then take out in order to take out the sample again at the thief rod, troublesome poeration when carrying out continuous sampling, influence work efficiency, it is inconvenient to use.

Disclosure of Invention

The invention aims to provide a tungsten-cobalt alloy powder sampling detection mechanism to solve the defects in the prior art.

In order to achieve the above purpose, the invention provides the following technical scheme: the utility model provides a tungsten cobalt alloy powder sampling test mechanism, includes the sampler, the sampler includes sampling tube and thief rod, the first end of sampling tube is located the container of tungsten cobalt alloy powder and has seted up the sample import, the second end of sampling tube is located the container is outer and has seted up the sample export, the thief rod activity is inlayed and is established in the sampling tube, the sample groove has been seted up on the thief rod, still include: and the composite adjusting mechanism is used for driving the sampling rod to perform reciprocating adjustment in the sampling pipe, so that the sampling groove on the sampling rod performs reciprocating alignment adjustment between the sampling inlet and the sampling outlet to realize continuous sampling.

As a further description of the above technical solution: the composite adjusting mechanism comprises an electric control telescopic rod and a linkage adjusting component; the electric control telescopic rod is used for driving the sampling rod to linearly move in the sampling tube; when the sampling rod linearly moves in a reciprocating mode between the sampling inlet and the sampling outlet, the linkage adjusting assembly passively drives the sampling rod to rotate so that the sampling groove opening is aligned with the sampling inlet and the sampling outlet respectively.

As a further description of the above technical solution: the electric control telescopic rod is fixed in the sampling tube, and the movable end of the electric control telescopic rod is connected with the sampling rod.

As a further description of the above technical solution: linkage adjusting part includes arc direction adjustment tank and direction adjustment portion, arc direction adjustment tank is seted up global of thief rod, direction adjustment portion fixes in the sampling tube, and direction adjustment portion inlays and establishes among the arc direction adjustment tank.

As a further description of the above technical solution: and the linear length between the head end and the tail end of the arc-shaped guide adjusting groove is equal to the linear length between the sampling inlet and the sampling outlet.

As a further description of the above technical solution: the included angle between the head end and the tail end of the arc-shaped guide adjusting groove is 180 degrees.

As a further description of the above technical solution: the sampling groove is elastically embedded with a sampling box, and the sampling rod is also slidably provided with a vibration mechanism for driving the sampling box to vibrate for use.

As a further description of the above technical solution: the sampling rod is characterized in that one end of the sampling rod is provided with a connecting groove, the inner side of the connecting groove is integrally provided with a diameter expanding groove, the end head of the electric control telescopic rod penetrates through the connecting groove, extends into the diameter expanding groove and is connected with a driving disc, and the driving disc is connected with a vibration mechanism.

As a further description of the above technical solution: a through hole is vertically formed in the diameter expanding groove, and a locking piece for limiting the driving disc is embedded in the through hole, so that the driving disc has a section of idle return stroke in the diameter expanding groove.

As a further description of the above technical solution: the sampling tube is provided with an unlocking mechanism, when the sampling box is aligned with the sampling outlet, the unlocking mechanism automatically unlocks the locking piece, and the electric control telescopic rod drives the vibration mechanism to drive the sampling box to vibrate through the driving disc so as to shake off powder in the sampling box.

In the technical scheme, the tungsten-cobalt alloy powder sampling and detecting mechanism provided by the invention is characterized in that a sampling tube is matched with a sampling rod through a combined design, a composite driving mechanism is arranged to drive the sampling rod to perform composite reciprocating adjustment, automatic and continuous sampling is realized according to actual needs, manual operation of workers is not required, the use is convenient, the composite driving mechanism is arranged to be in transmission fit with an electric control telescopic rod matched linkage adjusting assembly, the composite adjustment of linear reciprocating adjustment and axial rotation reciprocating adjustment is realized through single linear driving of the electric control telescopic rod, the control is more convenient, and the stability of continuous sampling is improved.

Drawings

In order to more clearly illustrate the embodiments of the present application or technical solutions in the prior art, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present invention, and other drawings can be obtained by those skilled in the art according to the drawings.

FIG. 1 is a schematic structural diagram provided in an embodiment of the present invention;

FIG. 2 is a schematic structural diagram provided in an embodiment of the present invention;

FIG. 3 is a schematic structural diagram according to an embodiment of the present invention;

FIG. 4 is a schematic structural diagram provided in accordance with an embodiment of the present invention;

FIG. 5 is a schematic structural diagram provided in an embodiment of the present invention;

FIG. 6 is a schematic structural diagram provided in accordance with an embodiment of the present invention;

FIG. 7 is a schematic structural diagram provided in accordance with an embodiment of the present invention;

fig. 8 is a schematic structural diagram provided in an embodiment of the present invention.

Description of the reference numerals:

1. a transfer bin; 2. a sampling tube; 21. a sampling inlet; 22. a sampling outlet; 23. a material receiving port; 231. a sample storage bottle; 232. a mouthpiece; 233. a threaded interface; 234. an annular sleeve frame; 235. a first spring plate; 236. a second elastic sheet; 24. an unlocking mechanism; 25. a guide adjusting part; 3. a sampling rod; 31. connecting grooves; 32. a diameter expanding groove; 33. a sampling groove; 34. an arc-shaped guide adjusting groove; 4. an electric control telescopic rod; 41. a drive disc; 5. a locking member; 51. a lock lever; 52. a stopper; 53. a support spring; 6. a vibration mechanism; 61. a bar-shaped rod; 62. a vibration projection; 7. a sampling box; 71. a vibration spring; 72. an arc-shaped convex part.

Detailed Description

In order to make those skilled in the art better understand the technical solution of the present invention, the present invention will be further described in detail with reference to the accompanying drawings.

Referring to fig. 1 to 8, an embodiment of the present invention provides a technical solution:

the utility model provides a tungsten cobalt alloy powder sampling test mechanism, includes the sampler, and the sampler includes sampling tube 2 and thief rod 3, and the first end of sampling tube 2 is located the container of tungsten cobalt alloy powder and has seted up sample import 21, and the second end of sampling tube 2 is located the container and has seted up sample export 22 outward, and the thief rod 3 activity is inlayed and is established in sampling tube 2, has seted up sample groove 33 on the thief rod 3, still includes: and the composite adjusting mechanism is used for driving the sampling rod 3 to perform reciprocating adjustment in the sampling pipe 2, so that the sampling groove 33 on the sampling rod 3 performs reciprocating alignment adjustment between the sampling inlet 21 and the sampling outlet 22 to realize continuous sampling. The embodiment provides a sampling detection mechanism for tungsten-cobalt alloy powder, which is used for a device for sampling tungsten-cobalt alloy powder, and specifically comprises a transfer bin 1 for transferring and feeding the tungsten-cobalt alloy powder, wherein the bottom of the transfer bin 1 is provided with a feeding hole, a sampler is inserted and fixed on the side wall of the transfer bin 1 and is close to the feeding hole, the sampler is used for continuously sampling the tungsten-cobalt alloy powder in the transfer bin 1 during feeding time of the transfer bin 1 so as to analyze whether the component proportion of the alloy powder is uniform and whether the granularity of the alloy powder meets requirements, the sampler comprises a sampling tube 2, the sampling tube 2 is a cylindrical structure with an opening at one end, the sampling tube 2 is inserted and connected on the transfer bin 1 in a penetrating manner, a first end (namely a closed end) of the sampling tube 2 is positioned inside the transfer bin 1, a second end (namely an open end) of the sampling tube 2 is positioned outside the transfer bin 1, the top of the first end of the sampling tube 2 is provided with a sampling inlet 21, the bottom of the second end of the sampling tube 2 is provided with a sampling outlet 22, the sampling rod 3 is of a cylindrical rod body structure and is provided with a sampling groove 33, wherein the sampling rod 3 has two working states, the first working state is that the sampling groove 33 on the sampling rod 3 corresponds to the position of the sampling inlet 21 arranged at the top of the first end of the sampling tube 2, so that the tungsten-cobalt alloy powder in the transfer bin 1 enters the sampling groove 33 through the sampling inlet 21 to complete sampling, the second working state is that the sampling groove 33 on the sampling rod 3 corresponds to the position of the sampling outlet 22 arranged at the bottom of the second end of the sampling tube 2, so that the tungsten-cobalt alloy powder collected in the sampling groove 33 is poured out to complete the whole sampling process, wherein the composite adjusting structure is in transmission connection with the sampling rod 3, with drive thief rod 3 reciprocal regulation in sampling tube 2, drive thief rod 3 is reciprocal between first operating condition and second frock state promptly and is switched in order to realize continuous sampling, and is optional, and compound actuating mechanism includes pneumatic telescopic link and motor, and pneumatic telescopic link is used for driving 3 linear regulations of thief rod, and the motor is used for driving 3 rotation regulations of thief rod.

This embodiment provides a tungsten cobalt alloy powder sampling test mechanism, realizes the integrated design through sampling tube cooperation thief rod to set up compound actuating mechanism drive thief rod and carry out compound reciprocating motion and adjust, realize carrying out automatic continuous sampling according to actual need, do not need staff manually operation, convenient to use.

In another embodiment provided by the present invention, preferably, the compound adjusting mechanism includes an electrically controlled telescopic rod 4 and a linkage adjusting component; the electric control telescopic rod 4 is used for driving the sampling rod 3 to linearly move in the sampling tube 2; when the sampling rod 3 is linearly moved back and forth between the sampling inlet 21 and the sampling outlet 22, the linkage adjusting assembly passively drives the sampling rod 3 to rotate so that the sampling slot 33 is opened and aligned with the sampling inlet 21 and the sampling outlet 22, respectively. The electric control telescopic rod 4 is fixed in the sampling tube 2, and the movable end of the electric control telescopic rod 4 is connected with the sampling rod 3. The linkage adjusting assembly comprises an arc-shaped guide adjusting groove 34 and a guide adjusting part 25, the arc-shaped guide adjusting groove 34 is arranged on the circumferential surface of the sampling rod 3, the guide adjusting part 25 is fixed in the sampling tube 2, and the guide adjusting part 25 is embedded in the arc-shaped guide adjusting groove 34. The linear length between the head end and the tail end of the arc-shaped guide adjusting groove 34 is equal to the linear length between the sampling inlet 21 and the sampling outlet 22. The included angle between the head end and the tail end of the arc-shaped guide adjusting groove 34 is 180 degrees

Further, the compound adjusting structure drives the sampling rod 3 to switch between the first working state and the second tooling state in a reciprocating manner to realize continuous sampling, specifically, the electrically controlled telescopic rod 4 drives the sampling rod 3 to perform reciprocating sliding adjustment in the sampling tube 2, and the sliding adjustment stroke length is a linear length between the sampling inlet 21 and the sampling outlet 22, so that the linear position of the sampling groove 33 on the sampling rod 3 corresponds to the sampling inlet 21 and the sampling outlet 22, and meanwhile, when the electrically controlled telescopic rod 4 drives the sampling rod 3 to perform reciprocating sliding adjustment in the sampling tube 2, the guide adjusting portion 25 in the sampling tube 2 cooperates with the arc-shaped guide adjusting groove 34 to passively drive the sampling rod 3 to rotate, so as to realize axial rotation adjustment of the sampling groove 33 on the sampling rod 3, and accordingly, the opening position of the sampling groove 33 on the sampling rod 3 corresponds to the sampling inlet 21 and the sampling outlet 22. Through setting the compound driving mechanism to the transmission cooperation of being coordinated with the linkage adjusting part by the electric control telescopic rod, the compound regulation of accomplishing linear reciprocating regulation and axial rotation reciprocating regulation through the single linear drive of electric control telescopic rod is realized, and control is more convenient, improves the stability of continuous sampling.

Further, the interval of sampling groove 33 and 3 ends of thief rod is greater than sample import 21 and sample and exports 22 between linear length equal to make thief rod 3 when first operating condition switches to second frock state, thief rod 3 can carry out the shutoff to sample import 21, prevents that alloy powder from entering into sampling tube 2 through sample import 21, leads to the unable normal regulation that stretches out and draws back of thief rod 3.

In another embodiment of the present invention, the sampling slot 33 is elastically embedded with the sampling box 7, and the sampling rod 3 is slidably provided with a vibrating mechanism 6 for driving the sampling box 7 to vibrate. The rectangular channel has been seted up to locating sampling slot 33 both sides on thief rod 3, sampling box 7 has open-ended box body structure for the top, its bilateral symmetry is fixed with the lug, sampling box 7 inlays to be established in sampling slot 33, the lug of sampling box 7 both sides slides and inlays to be established in the rectangular channel, and be connected with vibrating spring 71 between lug and the rectangular channel inner wall, vibration mechanism 6 includes bar 61 and arc convex part 72, bar 61 slides and sets up in thief rod 3, the equidistant a plurality of vibration convex parts 62 that are provided with on bar 61, the bottom of sampling box 7 is provided with the arc convex part 72 that the cooperation vibration convex part 62 used. Connecting groove 31 has been seted up to thief rod 3 one end, and the flaring groove 32 has been seted up to the inboard integral type of connecting groove 31, and the end of automatically controlled telescopic link 4 runs through connecting groove 31 and extends to in the flaring groove 32 and is connected with driving-disc 41, and driving-disc 41 is connected with vibration mechanism 6, and the week side of driving-disc 41 is connected with the end of thief rod 3, and the diameter of driving-disc 41 is greater than the diameter of connecting groove 31.

Furthermore, a through hole is vertically formed in the diameter expanding groove 32, and a locking member 5 for limiting the driving disc 41 is embedded in the through hole, so that the driving disc 41 has a section of idle return stroke in the diameter expanding groove 32, the locking member 5 comprises a locking rod 51, a stopper 52 is arranged at the top end of the locking rod 51, the locking rod 51 is elastically and movably embedded in the through hole through a supporting spring 53, wherein the elastic force of the supporting spring 53 is used for driving the locking rod 51 to move downwards so that the stopper 52 enters the through hole to be separated from the driving disc 41, the other end of the locking rod 51 abuts against the inner wall of the sampling tube 2, when the stopper 52 abuts against the driving disc 41, a section of idle return stroke is formed between the driving disc 41 and the end of the diameter expanding groove 32, when the stopper 52 is separated from the driving disc 41, the electric control unit 4 of the telescopic rod drives the driving disc 41 to extend and contract, namely, and the sampling rod 3 is kept forbidden.

Further, be provided with release mechanism 24 on sampling tube 2, when sampling box 7 and sample export 22 counterpoint be, release mechanism 24 unlocks locking piece 5 automatically, and automatically controlled telescopic link 4 drives vibration mechanism 6 drive sampling box 7 through driving-disc 41 and vibrates so that the powder shakes off in the sampling box 7. Unlocking mechanism 24 is for dodging the section of thick bamboo, dodge the top that the section of thick bamboo was located the second end on fixing sampling tube 2, and dodge the inner chamber of section of thick bamboo and sampling tube 2 and switch on, the position of sample export 22 that sample groove 33 on the thief rod 3 and sampling tube 2 second end bottom were seted up corresponds each other, thereby when pouring out the tungsten cobalt alloy powder of the collection in the sampling box 7, the position of locking piece 5 corresponds each other with the position of dodging the section of thick bamboo this moment, thereby move down so that dog 52 enters into the through hole through supporting spring 53's elasticity drive locking lever 51 and separates with driving-disc 41, the realization is carried out the unblock to driving-disc 41.

Specifically, when the sampling rod 3 enters the second tool state from the first working state, that is, the sampling groove 33 on the sampling rod 3 corresponds to the sampling outlet 22 formed at the bottom of the second end of the sampling tube 2, so as to pour out the tungsten-cobalt alloy powder collected in the sampling box 7, at this time, the position of the locking rod 51 corresponds to the position of the avoiding cylinder, so that the locking rod 51 is driven by the elastic force of the supporting spring 53 to move down to enable the stopper 52 to enter the through hole to be separated from the driving disk 41, so as to unlock the driving disk 41, at this time, the electric control telescopic rod 4 drives the driving disk 41 to extend and contract, namely, the driving disk 41 is located in the idle stroke, at this time, the sampling rod 3 is kept forbidden, that the position of the sampling box 7 always corresponds to the position of the sampling outlet 22, at the same time, when the electric control telescopic rod 4 drives the driving disk 41 to extend and contract, the driving disk 41 drives the bar-shaped rod 61 to extend and contract, so that the sampling box 7 is driven by the plurality of the vibration convex portions 62 on the sampling rod 61 to cooperate with the arc-shaped convex portions 72 to rapidly shake, so that the tungsten alloy powder can be poured out completely, thereby preventing the tungsten alloy powder from being continuously analyzed and the tungsten powder from adhering to the sampling box 7, and causing the sampling accuracy of the tungsten alloy to be continuously analyzed.

The embodiment provides a tungsten cobalt alloy powder sampling detection mechanism, carry out spacing locking to the driving-disc 41 of automatically controlled telescopic link 4 active end through set up locking piece 5 in hole enlargement groove 32, so that driving-disc 41 has one section idle return stroke in hole enlargement groove 32, simultaneously through setting up vibration mechanism 6 and being connected with driving-disc 41, and set up unlocking mechanism 24 and carry out the unblock when sampling rod 3 is located the second frock state, thereby make automatically controlled telescopic link 4 have an idle return stroke when driving sampling rod 3 and switch over to first operating condition from the second operating condition, and drive vibration mechanism 6 through automatically controlled telescopic link 4 and drive sampling box 7 and carry out quick shake in this idle return stroke, make the tungsten cobalt alloy powder in sampling box 7 can pour out completely, prevent that tungsten cobalt alloy powder from attaching to in sampling box 7 from leading to appearing mixing when carrying out continuous sampling, influence sampling analysis's precision.

In still another embodiment provided by the present invention, it is preferable that the length and width of the sampling outlet 22 are greater than those of the sampling box 7, so that the sampling box 7 has a space for movement to meet the vibration adjustment requirements of the sampling box 7. Be connected with material receiving opening 23 on the sample export 22, wherein material receiving opening 23 inboard corresponds with sample box 7 opening and is provided with the elastic rod, elastic rod and sample box 7's opening looks butt, hold in range and move material receiving opening 23 vibration when sample box 7 vibrates promptly, prevent that material receiving opening 23 inner wall from adhering to the tungsten cobalt alloy powder, further improve the precision of sample.

Further, the bottom of receiving mouth 23 is connected with presss from both sides interface tube 232, sample storage bottle 231 top is provided with hickey 233, hickey 233 and interface tube 232 threaded connection, sample storage bottle 231 is used for collecting receiving mouth 23 exhaust tungsten cobalt alloy powder, the outer wall cover of receiving mouth 23 is equipped with annular set frame 234, the inner wall annular of annular set frame 234 equidistance all does not have first shell fragment 235, hickey 233 week side is provided with the second shell fragment 236 that the first shell fragment 235 of cooperation used, when rotating sample storage bottle 231 and interface tube 232 separation, second shell fragment 236 cooperation first shell fragment 235 drive annular set frame 234 evenly drive receiving mouth 23 vibration, prevent to receive mouth 23 inner wall adhesion tungsten cobalt alloy powder.

While certain exemplary embodiments of the present invention have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that the described embodiments may be modified in various different ways without departing from the spirit and scope of the present invention. Accordingly, the drawings and description are illustrative in nature and should not be construed as limiting the scope of the invention.

Claims (5)

1. The utility model provides a tungsten cobalt alloy powder sampling test mechanism, includes the sampler, the sampler includes sampling tube (2) and thief rod (3), its characterized in that: the first end of sampling tube (2) is located the container of tungsten cobalt alloy powder and has seted up sample import (21), the second end of sampling tube (2) is located just has seted up sample export (22) outside the container, thief rod (3) activity inlays to be established in sampling tube (2), sampling groove (33) have been seted up on thief rod (3), still include: a composite adjusting mechanism for driving the sampling rod (3) to perform reciprocating adjustment in the sampling pipe (2) so that a sampling groove (33) on the sampling rod (3) performs reciprocating alignment adjustment between the sampling inlet (21) and the sampling outlet (22) to realize continuous sampling;

the composite adjusting mechanism comprises an electric control telescopic rod (4) and a linkage adjusting component; the electric control telescopic rod (4) is used for driving the sampling rod (3) to linearly move in the sampling tube (2); when the sampling rod (3) moves in a reciprocating linear mode between the sampling inlet (21) and the sampling outlet (22), the linkage adjusting assembly passively drives the sampling rod (3) to rotate so that the opening of the sampling groove (33) is aligned with the sampling inlet (21) and the sampling outlet (22) respectively;

sampling box (7) are elastically embedded in sampling groove (33), still slide in sampling rod (3) and be provided with the drive vibration mechanism (6) that sampling box (7) vibrate and use, connecting groove (31) have been seted up to sampling rod (3) one end, reducing groove (32) have been seted up to the inboard integral type of connecting groove (31), the end of automatically controlled telescopic link (4) is run through connecting groove (31) and is extended to in reducing groove (32) and be connected with driving-disc (41), driving-disc (41) are connected with vibration mechanism (6), open perpendicularly in reducing groove (32) and be equipped with the through-hole, and inlay in the through-hole and be equipped with and shake locking piece (5) that carry out spacingly to driving-disc (41) to make the driving-disc be in reducing groove (32) have one section idle return stroke, be provided with unlocking mechanism (24) on sampling tube (2), work as sampling box (7) and sample export (22) counterpoint is, unlocking mechanism (24) are automatic to locking piece (5) unblock, automatically, telescopic link (4) drive mechanism (6) through driving-disc (41) vibrate box (7) and shake and fall material in order to make sampling powder (7).

2. The sampling and detecting mechanism for the tungsten-cobalt alloy powder as recited in claim 1, wherein the electrically controlled telescopic rod (4) is fixed in the sampling tube (2), and the movable end of the electrically controlled telescopic rod (4) is connected with the sampling rod (3).

3. The tungsten-cobalt alloy powder sampling and detecting mechanism according to claim 1, wherein the linkage adjusting assembly comprises an arc-shaped guide adjusting groove (34) and a guide adjusting portion (25), the arc-shaped guide adjusting groove (34) is formed in the peripheral surface of the sampling rod (3), the guide adjusting portion (25) is fixed in the sampling tube (2), and the guide adjusting portion (25) is embedded in the arc-shaped guide adjusting groove (34).

4. The sampling and testing mechanism for W-Co alloy powder according to claim 3, wherein the linear length between the head end and the tail end of the arc-shaped guiding and adjusting groove (34) is equal to the linear length between the sampling inlet (21) and the sampling outlet (22).

5. The sampling and detecting mechanism for W-Co alloy powder as claimed in claim 3, wherein the included angle between the head end and the tail end of the arc-shaped guide adjusting groove (34) is 180 degrees.

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