CN217586513U

CN217586513U - Automatic change superfine tin powder sampler

Info

Publication number: CN217586513U
Application number: CN202220994578.3U
Authority: CN
Inventors: 欧阳交恕
Original assignee: Ganzhou Baita Metal Materials Co ltd
Current assignee: Ganzhou Baita Metal Materials Co ltd
Priority date: 2022-04-27
Filing date: 2022-04-27
Publication date: 2022-10-14
Anticipated expiration: 2032-04-27

Abstract

The invention relates to an automatic superfine tin powder sampler, which comprises a sampling tube, wherein the sampling tube is arranged on the side wall of a discharge tube in a tin powder machine and is communicated with the inside of the discharge tube, the bottom of one end of the sampling tube is provided with a bulge, the top end surface of the bulge is provided with a gathering groove communicated with the sampling tube, the bottom wall of the gathering groove is obliquely arranged, the lowest end of the bottom wall of the gathering groove is provided with a discharge tube, the bottom end of the discharge tube is in screwed connection with a sealing cover, and the top end of the sealing cover is provided with a material collecting barrel extending into the discharge tube; the sampling tube is internally provided with a sealing plate, a cylinder is arranged in the sampling tube on one side of the sealing plate, a cylinder guide pillar of the cylinder is connected with a sealing pillar on the other side of the sealing plate, a spring is sleeved on the cylinder guide pillar between the sealing pillar and the sealing plate, a sampling groove is formed in the top of the other end of the sealing pillar, and a flow guide channel communicated with the collection groove is obliquely and downwards formed in the bottom of the sampling groove. The invention has simple structure and convenient use.

Description

Automatic change superfine tin powder sampler

Technical Field

The invention relates to the technical field of tin powder processing, in particular to an automatic superfine tin powder sampler.

Background

The existing full-automatic tin powder machine is of a full-sealing structure, cannot perform intermediate sampling detection on tin powder in manufacturing, detects raw materials and directly detects finished products, and cannot timely know the intermediate quality of the tin powder and the step of production.

For example, an automatic tin powder sampler disclosed in publication No. CN112326339A, which solves the above problems, has the following disadvantages, 1, the number of automatic devices is large, such as: motors and cylinders, resulting in excessive maintenance or replacement costs; 2. the material that pours out through the feed opening in the sample groove easily diffuses in the air and influences sample work, or causes the problem such as influence environment.

Disclosure of Invention

The invention aims to provide an automatic superfine tin powder sampler.

The technical problem of the invention is mainly solved by the following technical scheme:

the utility model provides an automatic change superfine tin powder sampler, including set up in tin powder machine on the discharging pipe lateral wall and rather than the sampling tube of inside intercommunication:

the bottom of one end of the sampling tube is provided with a convex part, wherein the top end face of the convex part is provided with a collecting groove communicated with the sampling tube, the bottom wall of the collecting groove is obliquely arranged, the lowest end of the bottom wall of the collecting groove is provided with a discharging tube, the bottom end of the discharging tube is in screwed connection with a sealing cover, and the top end of the sealing cover is provided with a material collecting barrel extending into the discharging tube;

the sampling tube is internally provided with a sealing plate, a cylinder is arranged in the sampling tube on one side of the sealing plate, a cylinder guide post of the cylinder is connected with a sealing post on the other side of the sealing plate, a spring is sleeved on the cylinder guide post between the sealing post and the sealing plate, a sampling groove is formed in the top of the other end of the sealing post, and a flow guide channel communicated with the collection groove is obliquely and downwards formed in the bottom of the sampling groove.

Preferably, the outer cover of sealing post one end has the sealing ring with the discharging pipe homonymy, wherein is provided with the recess that the round held the sealing ring on the discharging pipe inside wall, and the sealing ring inboard still bonds and has sealed the pad.

Preferably, a plurality of rings of clamping grooves are arranged on the outer side wall of the tail end of the sealing column, which is on the same side with the sealing plate, wherein sealing rings are arranged in the clamping grooves and are positioned in the sampling pipes between the collecting grooves and the sealing plate.

Preferably, a corrugated hose is sleeved on the cylinder guide post, wherein two ends of the corrugated hose are respectively connected with the sealing post and the sealing plate, and the spring is sleeved on the corrugated hose.

Preferably, the top end of the material collecting barrel is lower than the horizontal plane of the lowest end of the bottom wall of the collecting groove, and an inclined plane is arranged on the edge of the top edge in the opening of the material collecting barrel.

Preferably, the top wall is provided with the spout on the axial in sampling tube one end, and wherein sealed capital end is provided with the slider that is located the spout.

Preferably, a purging pipe communicated with the collecting groove is arranged on the top wall of the sampling pipe, and a sealing sleeve for sealing an opening of the purging pipe is arranged on the purging pipe.

The invention has the beneficial effects that: when the device is used, the sealing column is driven by the cylinder through the cylinder guide column to move leftwards, so that the sealing column drives the sampling groove to move into the discharge pipe, the falling materials in the discharge pipe fall into the sampling groove and enter the collecting groove through the inclined flow guide channel, the materials falling into the collecting groove can be collected at the discharge pipe through the bottom inclined plane and flow into the collecting barrel to be deposited and taken out, after sampling is finished, the collecting barrel can be drawn out from the discharge pipe by unscrewing the sealing cover, so that the materials deposited in the collecting barrel can be smoothly taken out for detection, and the situation that the materials are diffused in a workshop to influence the working environment is prevented.

Drawings

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

fig. 2 is a schematic structural view in a use state of the present invention.

In the figure: 1. the device comprises a discharge pipe, 2, a sampling pipe, 3, a convex part, 4, a collecting groove, 5, a blanking pipe, 6, a sealing cover, 7, a material collecting barrel, 8, a sealing plate, 9, a cylinder, 10, a corrugated hose, 11, a spring, 12, a sealing column, 13, a sampling groove, 14, a flow guide channel, 15, a sealing ring, 16, a groove, 17, a sealing ring, 18, a sliding groove, 19, a sliding block, 20 and a purging pipe.

Detailed Description

The technical scheme of the invention is further specifically described by the following embodiments and the accompanying drawings 1-2.

The utility model provides an automatic change superfine tin powder sampler, including set up in tin powder machine on 1 lateral wall of discharging pipe and rather than the sampling tube 2 of inside intercommunication:

the bottom of one end of the sampling tube 2 is provided with a convex part 3, wherein the top end face of the convex part 3 is provided with a gathering groove 4 communicated with the sampling tube 2, the bottom wall of the gathering groove 4 is obliquely arranged, the lowest end of the bottom wall of the gathering groove 4 is provided with a blanking tube 5, the bottom end of the blanking tube 5 is in threaded connection with a sealing cover 6, the top end of the sealing cover 6 is provided with a material collecting barrel 7 extending into the blanking tube 5, the top end of the material collecting barrel 7 is lower than the horizontal plane of the lowest end of the bottom wall of the gathering groove 4, and an inclined plane is arranged on the edge of a top corner in the opening of the material collecting barrel 7;

be provided with closing plate 8 in the sampling tube 2, wherein be provided with cylinder 9 in the sampling tube 2 of closing plate 8 one side, and the cylinder guide pillar of cylinder 9 is connected with the sealed post 12 that is located closing plate 8 opposite side, the overcoat has spring 11 on the cylinder guide pillar between sealed post 12 and the closing plate 8, and wherein sealed post 12 other end top is provided with sample groove 13, and sample groove 13 bottom slope is provided with downwards and converges water conservancy diversion passageway 14 of groove 4 intercommunication.

The outer cover of 12 one end of sealed post has the sealing ring 15 with discharging pipe 1 homonymy, wherein is provided with the recess 16 that the round held sealing ring 15 on the discharging pipe 1 inside wall, and the sealing ring 15 inboard still bonds and has sealed the pad.

A plurality of rings of clamping grooves are arranged on the outer side wall of the tail end of the sealing column 12 at the same side as the sealing plate 15, wherein a sealing ring 17 is arranged in each clamping groove, and the sealing ring 17 is positioned in the sampling tube 2 between the collecting groove 4 and the sealing plate 8.

The top wall of the inner end of the sampling tube 2 is axially provided with a sliding groove 18, wherein the top end of the sealing column 12 is provided with a sliding block 19 positioned in the sliding groove 18.

As shown in FIG. 2, when the present invention is used, the cylinder 9 drives the sealing post 12 to move leftward through the cylinder guide post, so that the sealing post 12 drives the sampling slot 13 to move into the discharging pipe 1, so that the falling material in the discharging pipe 1 falls into the sampling slot 13 and enters the collecting slot 4 through the inclined flow guide channel 14, the sealing post 12 displaced in the above process drives the sliding block 19 to move leftward in the sliding slot 18, when the left end of the sliding slot 18 abuts against the sliding block 19 to prevent the sliding block 19 from moving leftward continuously, the purpose of indirectly limiting the leftward movement of the sealing post 12 can be achieved, the left end of the sealing post 12 is prevented from sliding into the discharging pipe 1 excessively to affect the falling work of the material therein, and when the cylinder 9 drives the sealing post 12 to return to the original position, the right end of the sliding slot 18 abuts against the sliding block 19 to prevent the sealing post 12 from sliding into the sampling pipe 2 excessively, so as to limit the left and right displacement amplitude of the sealing post 12, and finally the bottom end of the flow guide channel 14 is always located right above the opening of the collecting slot 4, so that the material in the sampling slot 13 and the flow guide channel 14 can flow smoothly into the collecting slot 4 regardless of the sealing post 12 under the working condition.

The materials falling into the collecting groove 4 in the process can be collected at the discharging pipe 5 through the bottom inclined plane and flow into the collecting cylinder 7 to be taken out, after the sampling is finished, the sealing cover 6 is unscrewed, and the collecting cylinder 7 can be drawn out from the discharging pipe 5, so that the materials deposited in the collecting cylinder 7 can be smoothly taken out for detection, and the influence on the working environment in a workshop is prevented.

The cylinder guide post is sleeved with a corrugated hose 10, wherein two ends of the corrugated hose 10 are respectively connected with the sealing post 12 and the sealing plate 8, and the spring 11 is sleeved on the corrugated hose 10.

Prevent through corrugated hose 10 that spring 11 and cylinder guide pillar lateral wall contact and damage it, spring 11 can be squeezed when cylinder 9 moves sealed post 12 rightwards through cylinder guide pillar drive simultaneously and make its shrink, and spring 11 through the shrink plays buffering cushioning effect to sealed post 12 of removal, prevents that it from moving right the speed of displacement too fast and cause great impact force when driving sealing ring 15 embedding recess 16 in, and then causes the problem of damage to both.

The top wall of the sampling tube 2 is provided with a purging tube 20 communicated with the collecting groove 4, wherein the purging tube 20 is provided with a sealing sleeve for sealing the opening of the purging tube.

As shown in fig. 1, after sampling is completed, compressed air can be injected into the sampling tank 13, the diversion channel 14 and the collection tank 4 through the opened purging pipe 20 to purge the residual materials in the sampling tank, the diversion channel and the collection tank, so that the purged residual materials are discharged through the discharging pipe 5, and the purpose of cleaning the inside of the discharging pipe is achieved.

In this embodiment, the cylinder 9 is located in the opening of the open end of the sampling tube 2, so that the cylinder not only can dissipate heat, but also can be maintained conveniently.

The present invention has been described in detail, but the above description is only a preferred embodiment of the present invention, and is not to be construed as limiting the scope of the present invention. All equivalent changes and modifications made within the scope of the present invention shall fall within the scope of the present invention.

Claims

1. The utility model provides an automatic change superfine tin powder sampler, including set up in tin powder machine on discharging pipe lateral wall and rather than the sampling tube of inside intercommunication, its characterized in that:

the bottom of one end of the sampling tube is provided with a bulge, wherein the top end face of the bulge is provided with a gathering groove communicated with the sampling tube, the bottom wall of the gathering groove is obliquely arranged, the lowest end of the bottom wall of the gathering groove is provided with a blanking tube, the bottom end of the blanking tube is in screwed connection with a sealing cover, and the top end of the sealing cover is provided with a material collecting barrel extending into the blanking tube;

2. The automated ultrafine tin powder sampler according to claim 1, wherein: the sealing device is characterized in that a sealing ring which is arranged on the same side as the discharging pipe is sleeved outside one end of the sealing column, a circle of groove for containing the sealing ring is formed in the inner side wall of the discharging pipe, and a sealing gasket is bonded on the inner side of the sealing ring.

3. The automated ultrafine tin powder sampler according to claim 1, wherein: and a plurality of rings of clamping grooves are arranged on the outer side wall of the tail end of the sealing column at the same side as the sealing plate, sealing rings are arranged in the clamping grooves, and the sealing rings are positioned in the sampling pipes between the collecting grooves and the sealing plate.

4. The automated ultrafine tin powder sampler according to claim 1, wherein: the cylinder guide post is sleeved with a corrugated hose, two ends of the corrugated hose are respectively connected with the sealing post and the sealing plate, and the spring is sleeved on the corrugated hose.

5. The automated ultrafine tin powder sampler according to claim 1, wherein: the top end of the material collecting barrel is lower than the horizontal plane of the lowest end of the bottom wall of the collecting groove, and an inclined plane is arranged on the edge of the top edge in the opening of the material collecting barrel.

6. The automated ultrafine tin powder sampler according to claim 1, wherein: the axial is provided with the spout on the roof in sampling tube one end, and wherein the sealed column top is provided with the slider that is located the spout.

7. The automated ultrafine tin powder sampler according to claim 1, wherein: and the top wall of the sampling tube is provided with a purging tube communicated with the collecting groove, and the purging tube is provided with a sealing sleeve for sealing an opening of the purging tube.