CN217755514U - Anti-blocking scraper-trough conveyer applied to clay belt conveying line - Google Patents

Abstract

The utility model discloses an anti-blocking scraper-trough conveyer applied to a clay belt conveying line; the anti-blocking scraper-trough conveyer comprises a scraper-trough conveyer body, a sensing detection device and a vibrating material dredging mechanism. Wherein, the whole scraper-trough conveyer body is cylindrical and longitudinally arranged, and an adaptive opening is arranged at the lower position of the middle part of the scraper-trough conveyer body; the sensing detection device is arranged at the upper position of the middle part in the scraper-trough conveyer body; the vibrating material scattering mechanism comprises a vibrating plate, a vibrating motor and an elastic connecting assembly, wherein the vibrating plate is located inside the scraper-trough conveyer body and corresponds to the position of the adaptive opening, the vibrating motor is arranged on the vibrating plate and is partially located on the outer side of the scraper-trough conveyer body, and the elastic connecting assembly is arranged between the vibrating plate and the scraper-trough conveyer body. The utility model discloses can realize that the swift current son blocks up and detects and can realize mechanized mediation after blockking up, effectively solve the swift current son and blockked up the problem.

Description

Anti-blocking scraper-trough conveyer applied to clay belt conveying line

Technical Field

The utility model belongs to the technical field of cement manufacture and processing, concretely relates to be applied to anti-blocking scraper-trough conveyer in clay belt transfer chain.

Background

The clay is used as an adhesive in the cement production and processing process, the belt conveyor is adopted when the clay is conveyed downwards from the mountain, and after the scraper-trough conveyer matched with the belt conveyor is blocked, if the clay cannot be found in time, a large amount of material turning at the head of a belt can be caused, the normal production of a clay system is seriously influenced, and the cleaning amount of field materials is large and the labor amount of workers is large. The existing anti-blocking scraper-trough conveyer mostly adopts a sensor to trigger, then stops a feeding device, and then artificially treats the problem of material blocking, and the scraper-trough conveyer does not have the function of dredging the material blocking.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an anti-blocking scraper-trough conveyer applied to a clay belt conveying line; is used for effectively solving the problem of chute blockage.

In order to achieve the above object, the utility model adopts the following technical scheme:

an anti-blocking scraper-trough conveyer applied to clay belt conveying lines comprises:

the whole scraper-trough conveyer body is cylindrical and longitudinally arranged, and a matching port is arranged at a position lower than the middle part of the scraper-trough conveyer body;

the sensing detection device is arranged at the upper position of the middle part in the scraper-trough conveyer body;

the vibrating material dispersing mechanism comprises a vibrating plate, a vibrating motor and an elastic connecting assembly, wherein the vibrating plate is positioned in the scraper-trough conveyer body and corresponds to the position of the adapting port; the elastic connecting assembly comprises a plate spring connected between the vibrating plate and the inner wall of the scraper-trough conveyer body and a canvas enclosure I connected between the vibrating plate and the adapting port and forming an enclosing shape for a formed gap; the two plate springs are symmetrically arranged, and the canvas enclosure I is in a stacked and folded state under a normal state.

Furthermore, or the elastic connecting assembly comprises a plurality of sliding rods vertically inserted into the edge wall body of the adaptation opening, springs sleeved at two ends of the sliding rods, and a canvas enclosure II connected between the vibrating plate and the adaptation opening and forming an enclosure shape for a formed gap; under the normal state, the canvas surrounding baffle II is in a stacked folded state, limit stops are arranged at two ends of the sliding rod, the sliding rod is in sliding fit with the wall body at the adaptive opening, the sliding rod and the vibrating plate which are positioned inside the scraper-trough conveyer body are fixedly connected, and the spring is clamped between the limit stops and the wall body at the adaptive opening.

Further, the sensing detection device comprises a rotation-resistant material level switch arranged on the scraper-trough conveyer body and a material baffle plate arranged in the scraper-trough conveyer body and positioned above the rotation-resistant material level switch blade.

Furthermore, a material following plate is obliquely distributed above the vibration plate inside the scraper-trough conveyer body.

The beneficial effects of the utility model are that:

1. the utility model discloses on structural design, utilize sensing detection device to detect whether the scraper-trough conveyer blocks up, and then can control the shut down that realizes band conveyer through the central control system, avoid the belt feeder stirring, still can utilize vibration dredging mechanism to vibrate loosely to the material simultaneously, realize mediation material purpose, can effectively avoid the scraper-trough conveyer to block up;

2. the vibration of the scraper-trough conveyer body is slightly influenced by the vibration material dredging mechanism in structural design, so that the looseness of other connecting pieces can be avoided; the vibrating material-dredging mechanism is close to the chute discharge port in the action position, and the material is acted in a vibrating mode, so that the dredging effect is better.

Drawings

Fig. 1 is a schematic structural diagram of a first embodiment of the present invention;

FIG. 2 isbase:Sub>A schematic sectional view taken along line A-A in FIG. 1;

fig. 3 is a schematic structural diagram of a second embodiment of the present invention.

Wherein, 1-the scraper-trough conveyer body; 2-an adaptation port; 3-rotation resistance material level switch; 4-a material baffle plate; 5-a vibrating plate; 6-a vibration motor; 7-a plate spring; 8-canvas fence I; 9-a slide bar; 10-a spring; 11-a material-distributing plate; and 12-canvas enclosure II.

Detailed Description

The preferred embodiments of the present invention will be described below with reference to the accompanying drawings.

Example one

As shown in figures 1 and 2, an anti-blocking scraper-trough conveyer applied in a clay belt conveying line; the anti-blocking scraper-trough conveyer comprises a scraper-trough conveyer body 1, a sensing detection device and a vibration dredging mechanism. The scraper-trough conveyer body 1 is butted with a clay conveyer belt; the sensing detection device is used for detecting whether the inside of the scraper-trough conveyer body 1 is blocked by accumulated materials; the vibration material dredging mechanism enables the materials to be loosened and discharged through vibration.

The whole scraper-trough conveyer body 1 is cylindrical and longitudinally arranged, the section of the scraper-trough conveyer body 1 is square, the top end is a large opening, and the bottom end is a small opening; the middle part of the scraper-trough conveyer body 1 is provided with an adaptation opening 2 at a lower position, and the adaptation opening 2 is square and is close to a lower-end discharge opening.

The sensing detection device is arranged at the upper position of the middle part in the scraper-trough conveyer body 1; specifically, the sensing detection device comprises a rotation-resistant material level switch 3 and a material baffle plate 4; the rotation-resistant material level switch 3 is arranged on the scraper-trough conveyer body 1, and a blade of the rotation-resistant material level switch 3 is positioned in the scraper-trough conveyer body 1; the material blocking plate 4 is obliquely arranged and fixed on the scraper-trough conveyer body 1 and is positioned above the blades, and the material blocking plate 4 is used for preventing falling materials from impacting the blades to trigger the rotation-resistant material level switch 3; the rotation-resistant material level switch 3 can be connected into a central control system of the clay belt conveying line, and feeds back the state of whether the scraper-trough conveyer is blocked to the central control system.

The vibrating material dispersing mechanism comprises a vibrating plate 5, a vibrating motor 6 and an elastic connecting assembly. The vibrating plate 5 is positioned inside the scraper-trough conveyer body 1 and corresponds to the position of the adaptation opening 2, and the vibrating plate 5 is square and larger than the adaptation opening 2. The vibrating motor 6 is installed on the vibrating plate 5, the vibrating motor 6 is partially located on the outer side of the scraper-trough conveyer body 1, and the vibrating motor 6 is connected into a central control system of the clay belt conveying line. The elastic connecting assembly is matched with the vibrating plate 5 and is used for reducing the vibration influence on the scraper-trough conveyer body 1 and inhibiting the connecting piece on the scraper-trough conveyer body 1 from loosening; the elastic connecting assembly specifically comprises a plate spring 7 connected between the vibrating plate 5 and the inner wall of the scraper-trough conveyer body 1 and a canvas enclosure I8 connected between the vibrating plate 5 and the adapting port 2 and forming an enclosure shape for a formed gap; two plate springs 7 are symmetrically arranged and transversely arranged on the vibrating plate 5; the canvas fence I8 is in a stacking and folding state under a normal state and is used for adapting to displacement change of the vibrating plate 5 during action; the canvas is enclosed and is kept off I8 and is also used for avoiding material, dust etc. to discharge through vibration board 5 and 2 clearances of adaptation mouth. In the falling process of the materials along the inner wall of the scraper-trough conveyer body 1, the vibrating plate 5 can form a blocking effect, so that the material-following plate 11 is obliquely arranged above the vibrating plate 5 in the scraper-trough conveyer body 1 to promote the materials to smoothly slide.

The utility model discloses a working process and principle are:

the clay is discharged into the scraper-trough conveyer 1 through the belt conveyer and is discharged through the scraper-trough conveyer 1; when a lower port of the scraper-trough conveyer body 1 is blocked, clay materials are continuously accumulated and lifted in the scraper-trough conveyer body 1, when the height rises for a certain position, the rotation of a blade of the rotation-resistant material level switch 3 is inhibited, and the rotation-resistant material level switch 3 is triggered; hinder soon material level switch 3 and produce feedback signal and send for central control system after triggering, central control system can realize warning and band conveyer's shutdown control, and central control system still controls vibrating motor 6 and starts simultaneously, and vibrating motor 6 drives vibration board 5 and vibrates under the effect of leaf spring 7, piles up the material to the bin outlet and vibrate, and then impels the material to remove the card dead state and discharge smoothly. And the worker should go to the site and check whether the blockage state of the scraper-trough conveyer is completely relieved or not, and start the belt conveyor to continue running after the scraper-trough conveyer is determined to be not blocked.

Example two

As shown in fig. 3, the structure of the elastic connecting component is changed on the basis of the first embodiment. Specifically, the elastic connecting assembly comprises a sliding rod 9, a spring 10 and a canvas enclosure II 12. Four sliding rods 9 are arranged and are arranged at four corners of the adapting port 2; the slide bar 9 penetrates through the edge wall body at the adapting opening 2, is vertical to the wall body and is in sliding fit with the wall body; the two ends of the sliding rod 9 are provided with limit stops for pressing the spring 10, the structure of the sliding rod 9 can be realized by using a stud and a nut matched with the stud, and the tightness degree of the spring 10 can be favorably adjusted after the nut is used as the limit stop; one end of the sliding rod 9 is connected with the vibrating plate 5, and can be connected by adopting a welding mode. The spring 10 is sleeved at two ends of the sliding rod 9 and is pressed between the edge wall body at the adapting port 2 and the limit stop. The canvas enclosure II 12 is connected between the vibrating plate 5 and the adapting opening 2 and forms an enclosing shape for the formed gap, and the canvas enclosure II 12 is in a stacking and folding state under a normal state. When the vibration motor 6 is started, the influence of the vibration plate 5 on the scraper-trough conveyer body 1 can be reduced under the action of the spring 10.

Claims (4)

1. The utility model provides an anti-blocking scraper-trough conveyer who is applied to in clay belt transfer chain which characterized in that includes:

the scraper-trough conveyer body is integrally cylindrical and longitudinally arranged, and an adaptive opening is formed in the lower middle part of the scraper-trough conveyer body;

the sensing detection device is arranged at the upper position of the middle part in the scraper-trough conveyer body;

the vibrating material dispersing mechanism comprises a vibrating plate, a vibrating motor and an elastic connecting assembly, wherein the vibrating plate is positioned in the scraper-trough conveyer body and corresponds to the position of the adapting port; the elastic connecting assembly comprises a plate spring connected between the vibrating plate and the inner wall of the scraper-trough conveyer body and a canvas enclosure I connected between the vibrating plate and the adapting port and forming an enclosing shape for a formed gap; the two plate springs are symmetrically arranged, and the canvas enclosure I is in a stacking and folding state under a normal state.

2. The anti-blocking scraper conveyor line applied to the clay belt conveyor line as claimed in claim 1, wherein the elastic connecting assembly comprises a plurality of sliding rods vertically inserted into the edge wall body of the adapting port, springs sleeved at two ends of the sliding rods, and a canvas enclosure II connected between the vibrating plate and the adapting port and forming an enclosure shape for a gap formed; under the normal state, the canvas surrounding baffle II is in a stacked folded state, limit stops are arranged at two ends of the sliding rod, the sliding rod is in sliding fit with the wall body at the adaptive opening, the sliding rod and the vibrating plate which are positioned inside the scraper-trough conveyer body are fixedly connected, and the spring is clamped between the limit stops and the wall body at the adaptive opening.

3. The anti-blocking scraper conveyor line applied to the clay belt conveyor line as claimed in claim 2, wherein the sensing and detecting device comprises a rotation-resistant material level switch arranged on the scraper conveyor line body, and a material baffle plate arranged inside the scraper conveyor line and positioned above the blades of the rotation-resistant material level switch.

4. The anti-blocking scraper conveyer used in clay belt conveying line according to claim 2, wherein a material guiding plate is obliquely arranged above the vibration plate inside the scraper conveyer body.

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