CN215492574U - Detect and use cement sampler - Google Patents

Abstract

The utility model discloses a cement sampler for detection, which comprises a sampling tube arranged on one side of an output tube of cement clinker, a material receiving tube arranged below a discharge opening of the sampling tube, a blanking assembly arranged below the sampling tube and a collecting mechanism positioned below the blanking assembly, wherein the blanking assembly comprises a blanking tube connected to the lower part of the sampling tube and a blanking head connected to one end of the blanking tube far away from the sampling tube, the blanking tube is a hose, the collecting mechanism comprises a workbench, a moving platform arranged on the workbench in a sliding manner, a material rack arranged on the moving platform and a plurality of material receiving boxes arranged in the material rack, and the material receiving boxes are used for receiving cement clinker samples flowing out from the blanking head. According to the utility model, the moving platform is driven by the cylinder to move in a reciprocating manner, so that the material rack on the moving platform, on which a plurality of blanking boxes are placed, can move in a reciprocating manner, time and labor are saved, the automation degree is high, and the labor force is saved.

Description

Detect and use cement sampler

Technical Field

The utility model relates to the field of cement sampling, in particular to a cement sampler for detection.

Background

The cement clinker is formed by calcining the raw materials at high temperature, and the quality of the clinker and the sintering condition can be tested by sampling, detecting and analyzing the cooled cement clinker; according to the result of detection and analysis, the proportion of the raw materials can be adjusted in time to control production. A material receiving box is arranged below a discharge opening of a common cement clinker sampler, the material receiving box which is full of materials needs to be replaced manually, and the material receiving box is collected, arranged and sent to a test position, so that the method is time-consuming and labor-consuming, and the automation degree is low.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a cement sampler for detection, which aims to solve the technical problems of time and labor waste and low automation degree in the cement clinker sample collection process in the prior art.

The technical scheme adopted by the utility model for solving the technical problems is as follows: a cement sampler for detection comprises a sampling tube arranged on one side of an output tube of cement clinker, a material receiving tube arranged below a discharge opening of the sampling tube, a blanking assembly arranged below the material receiving tube and a collecting mechanism positioned below the blanking assembly, wherein the blanking assembly comprises a blanking tube connected to the lower part of the material receiving tube and a blanking head connected to one end, far away from the material receiving tube, of the blanking tube, the blanking tube is a hose, the collecting mechanism comprises a workbench, a moving platform arranged on the workbench in a sliding manner, a material rack arranged on the moving platform and a plurality of material receiving boxes arranged in the material rack, and the material receiving boxes are used for receiving cement clinker samples flowing out of the blanking head;

the material rack is a hollow square box body, a plurality of round holes which are arranged in order are formed in the material rack, the material receiving box is placed into the material rack through the round holes, and the sliding direction of the moving platform on the workbench is consistent with the length direction of the material rack.

Furthermore, the position department of moving one side of platform width direction on the workstation is equipped with vertical mount, be equipped with electric putter on the mount, electric putter keeps away from the one end of mount and is connected with the support that is used for fixed blanking head position.

Furthermore, the workbench is detachably connected with two vertical positioning plates for positioning the material rack, the two positioning plates are arranged diagonally, and the cross section of each positioning plate is L-shaped.

Furthermore, the material receiving box is of a barrel-shaped structure, and a protruding part used for placing the material receiving box on the material rack is further arranged at an open position at the upper part of the material receiving box.

Furthermore, a section of external thread is arranged on the part, close to the blanking pipe, of the blanking head, and an internal thread matched with the external thread is arranged in the support.

According to the technical scheme, the utility model has the beneficial effects that:

(1) according to the cement sampler provided by the utility model, the moving platform is driven to move in a reciprocating manner through the air cylinder, so that the material rack on the moving platform, which is provided with a plurality of material receiving boxes, can move in place in time after one material receiving box is fully collected, until all the material receiving boxes in the material rack are fully collected, time and labor are saved, and the automation degree is high.

(2) Through can dismantle the locating plate that sets up the work or material rest that is used for fixing a position on moving platform, adaptable not work or material rest of equidimension, the commonality is strong, and the work or material rest can be taken out and put into moving platform on conveniently.

Drawings

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

fig. 2 is a schematic top view of the present invention.

The labels in the figure are: 1. the device comprises a sampling tube, 2, a material receiving tube, 3, a blanking tube, 4, a support, 5, a blanking head, 6, a moving platform, 7, a workbench, 8, a material rack, 9, a material receiving box, 10, an electric push rod, 11, an output tube, 12, a positioning plate, 13 and a cylinder.

Detailed Description

The utility model is described in further detail below with reference to the figures and the embodiments.

As shown in fig. 1-2, a cement sampler for detection comprises a sampling tube 1 disposed on one side of an output tube 11 of cement clinker, a material receiving tube 2 disposed under a discharge port of the sampling tube 1, a blanking assembly disposed under the material receiving tube 2, and a collecting mechanism disposed under the blanking assembly.

Sampling tube 1 is hollow pipe, and the one end that is close to output tube 11 on sampling tube 1 is equipped with and connects the material mouth, and the one end of keeping away from the output tube is equipped with the discharge opening, and the discharge opening all sets up on sampling tube 1's lateral wall with connecing the material mouth, the discharge opening with connect the opening opposite direction of material mouth. The sampling tube 1 is driven by the driving mechanism to rotate, when the material receiving opening of the sampling tube 1 rotates to the upper side, cement clinker in the output tube 11 enters the sampling tube 1 from the material receiving opening, and then flows out of the material receiving tube 2 from the material discharging opening.

The blanking assembly comprises a blanking pipe 3 connected to the lower portion of the material receiving pipe 2 and a blanking head 5 connected to one end, far away from the material receiving pipe 2, of the blanking pipe 3, wherein the blanking pipe 3 is a hose so as to facilitate the left and right movement of the blanking head 5. The part of the blanking head 5 close to the blanking pipe 3 is provided with a section of external thread, and the part of the blanking head 5 far away from the blanking pipe 3 is of a structure with the inner aperture gradually reduced. The cement clinker sample falls into the material receiving pipe 2 through the discharge opening of the sampling pipe 1, then falls into the blanking pipe 3 from the material receiving pipe 2, and finally flows out from the blanking head 5.

The utility model discloses a blanking head, including workstation 7, the one end that the workstation 6 width direction one side position was equipped with vertical mount on the workstation 7, be equipped with electric putter 10 on the mount, the one end that electric putter 10 kept away from the mount is connected with the support 4 that is used for fixed blanking head 5 positions. The support 4 is of a circular ring structure, the inner hole of the support 4 is in a step shape, the inner hole in the upper portion of the support 4 is provided with an inner thread matched with the outer thread of the blanking head 5, and the diameter of the inner hole in the lower portion of the support 4 is smaller than that of the inner hole in the upper portion. The blanking head 5 is connected in the bracket 4 through threads until the blanking head 5 is contacted with the inner hole step surface of the bracket 4. The support 4 is pushed to move left and right through the electric push rod 10, so that the blanking head 5 is driven to move left and right, the effect of adjusting the position of the blanking head 5 is achieved, and the material receiving box is suitable for two rows of material receiving boxes 9 in the material rack 8.

The collecting mechanism comprises a workbench 7, a moving platform 6 arranged on the workbench 7 in a sliding manner, a material rack 8 arranged on the moving platform 6 and a plurality of material receiving boxes 9 arranged in the material rack 8, wherein the material receiving boxes 9 are used for receiving cement clinker samples flowing out from the blanking head 5. And an air cylinder 13 is arranged on one side of the workbench 7 in the length direction of the moving platform 6, and a piston rod of the air cylinder 13 is connected with the material rack moving platform 6. The cylinder 13 drives the moving platform 6 to reciprocate, so that the material rack 8 on the moving platform 6, on which a plurality of material receiving boxes 9 are placed, reciprocates, and the sliding direction of the moving platform 6 on the workbench 7 is consistent with the length direction of the material rack 8.

The material rack 8 is a hollow square box body, eight round holes which are orderly arranged are formed in the material rack 8, the eight round holes are arranged in two rows and four rows, and the material receiving box 9 is placed into the material rack 8 through the round holes. The material receiving box 9 is of a barrel-shaped structure, a protruding portion used for placing the material receiving box 9 on the material rack 8 is further arranged at an open position of the upper portion of the material receiving box 9, the overall outer diameter of the material receiving box 9 is the same as the diameter of a round hole in the material rack 8, and the outer diameter of the protruding portion of the material receiving box 9 is larger than the overall outer diameter of the material receiving box 9. The material receiving box 9 penetrates through a round hole in the material rack 8 and is placed in the material rack 8 until the protruding part of the material receiving box 9 contacts with the material rack 8.

The workbench 7 is detachably connected with two vertical positioning plates 12 used for positioning the material rack 8, the two positioning plates 12 are arranged diagonally, and the cross section of each positioning plate 12 is L-shaped. The work bench 7 is placed into the material rack 8, and two oblique opposite angles of the material rack 8 are respectively contacted with the corners of the two positioning plates 12. The locating plate 12 is used for limiting the position of the material rack 8, avoids the material rack 8 from generating plane displacement, and meanwhile, the relative distance of the two locating plates 12 can be adjusted to adapt to the material racks 8 with different sizes, so that the universality is high.

The working principle of the utility model is as follows:

firstly, sequentially placing a plurality of material receiving boxes 9 into a material rack 8, then placing the material rack 8 filled with the material receiving boxes 9 on a moving platform 6, then starting an air cylinder 13 to drive the moving platform 6 to move forwards to an initial position, and at the moment, the material receiving box 9 at the upper left corner is positioned below a blanking head 5; starting the sampling tube 1, enabling a cement clinker sample to fall into the material receiving tube 2 through a discharge opening of the sampling tube 1, then fall into the blanking tube 3 from the material receiving tube 2, and finally flow out of the blanking head 5 and are collected into the material receiving box 9; after the material receiving box 9 at the upper left corner is fully collected, the air cylinder 13 is started to drive the moving platform 6 to move forwards for one station, so that the next material receiving box 9 can move in place in time, and the sampling and the collection are repeated until the material receiving boxes 9 in a row on the left side are fully collected.

And starting an electric push rod 10 to push the support 4 to move rightwards, further driving the blanking head 5 to move rightwards for one station, sampling and collecting a row of material receiving boxes 9 on the right, and driving the moving platform 6 to move backwards step by the air cylinder 13 until all the material receiving boxes 9 in the material rack 8 are fully collected. Then, the cylinder 13 drives the moving platform 6 to move backwards for a certain distance, and then the material rack 8 is taken out and put into a new material rack 8.

It should be noted that the above embodiments are only for illustrating the present invention, but the present invention is not limited to the above embodiments, and any simple modification, equivalent change and modification made to the above embodiments according to the technical essence of the present invention fall within the protection scope of the present invention.

Claims (5)

1. The utility model provides a detect and use cement sampler, is including establishing sampler (1) in cement clinker's output tube (11) one side and establishing sampling tube (2) under the discharge gate of sampler (1), its characterized in that: the device is characterized by further comprising a blanking assembly arranged on the lower portion of the sampling tube (2) and a collecting mechanism located below the blanking assembly, wherein the blanking assembly comprises a blanking tube (3) connected to the lower portion of the sampling tube (2) and a blanking head (5) connected to one end, far away from the sampling tube (2), of the blanking tube (3), the collecting mechanism comprises a workbench (7), a moving platform (6) arranged on the workbench (7) in a sliding mode, a material rack (8) arranged on the moving platform (6) and a plurality of material receiving boxes (9) arranged in the material rack (8), and the material receiving boxes (9) are used for receiving cement clinker samples flowing out of the blanking head (5);

the material rack (8) is a hollow square box body, a plurality of round holes which are arranged orderly are formed in the material rack (8), the material receiving box (9) is placed in the material rack (8) through the round holes, and the sliding direction of the moving platform (6) on the workbench (7) is consistent with the length direction of the material rack (8).

2. A cement sampler for testing according to claim 1, wherein: the feeding device is characterized in that a vertical fixing frame is arranged at one side position of the width direction of the moving platform (6) on the workbench (7), an electric push rod (10) is arranged on the fixing frame, and one end, far away from the fixing frame, of the electric push rod (10) is connected with a support (4) used for fixing the position of the blanking head (5).

3. A cement sampler for testing according to claim 2, wherein: the workbench (7) is detachably connected with two vertical positioning plates (12) used for positioning the material rack (8), the two positioning plates (12) are arranged diagonally, and the cross section of each positioning plate (12) is L-shaped.

4. A cement sampler for testing according to claim 3, wherein: the material receiving box (9) is of a barrel-shaped structure, and a protruding part for placing the material receiving box (9) on the material rack (8) is further arranged at an open position at the upper part of the material receiving box (9).

5. The cement sampler for testing as set forth in claim 4, wherein: the part of the blanking head (5) close to the blanking pipe (3) is provided with a section of external thread, and the inside of the bracket (4) is provided with an internal thread matched with the external thread.

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