CN216856871U - A combined material breaker for producing cement - Google Patents

Abstract

The utility model relates to the field of cement mixed material crushing, in particular to a mixed material crushing device for producing cement, which comprises a primary crushing module, a transmission module, a metal separation module and a secondary crushing module, wherein the metal separation module comprises a second rack and an electromagnetic iron remover, the electromagnetic iron remover is fixedly arranged in the second rack, the electromagnetic iron remover is close to the transmission module, the primary crushing module is provided with an impeller type crusher and a first rack for fixedly arranging the impeller type crusher, the secondary crushing module is a roller type crusher, the transmission module is positioned between the primary crushing module and the secondary crushing module, and the transmission direction of the transmission module is from the primary crushing module to the secondary crushing module. When the impeller type crusher works, the cement mixed material is primarily crushed and flows into the conveying module, and iron impurities in the cement mixed material are separated by the electromagnetic iron remover and then are conveyed to the secondary crushing module to be crushed into particles meeting the requirements.

Description

A combined material breaker for producing cement

Technical Field

The utility model relates to the field of crushing of cement mixed materials, in particular to a mixed material crushing device for producing cement.

Background

When cement is produced, in order to improve the performance of the cement, adjust the strength grade of the cement and reduce the cost, the added artificial or natural mineral materials become cement mixed materials, the raw materials of the cement mixed materials are crushed by a crusher until the cement mixed materials meet the requirements for use, the cement mixed materials contain iron impurities in the crushing process, a large amount of abrasion is caused to equipment, the performance of the cement mixed materials is influenced, and therefore, the removal of the iron impurities is also necessary.

SUMMERY OF THE UTILITY MODEL

In view of the above, there is a need to provide a mixed material crushing device for producing cement, which addresses the problems of the prior art.

In order to solve the problems of the prior art, the utility model adopts the technical scheme that:

the utility model provides a combined material breaker for producing cement, including primary crushing module, the transport module, metal separation module and second grade crushing module, metal separation module includes second frame and electromagnetism de-ironing separator, the second frame passes transport module both sides wall level and places subaerial, electromagnetism de-ironing separator fixed mounting is inside the second frame, and the electromagnetism de-ironing separator is close to the one side that transport cement combined material of transport module, primary crushing module is provided with impeller crusher and the first frame that is used for fixed mounting impeller crusher, second grade crushing module sets up in any side of primary crushing module, second grade crushing module is roller mill, transport module is located between primary crushing module and the second grade crushing module, transport module's direction of transfer is by the directional second grade crushing module of primary crushing module.

Preferably, the metal separation module comprises a vibrating motor, the second frame comprises a base support, a first support plate, a second support plate, a top cover, guide pillars and springs, the bottom of the base support is fixedly arranged on the ground, the bottom support extends upwards from two side walls of the conveying module to the upper part of the conveying module, the first support plate is fixedly arranged above the base support, the guide pillars are provided with a plurality of groups of plate surfaces uniformly distributed on the first support plate, the second support plate is positioned above the first support plate and is in sliding connection with the guide pillars, one end surface of each guide pillar is fixedly connected with the first support plate, the other end surface of each guide pillar penetrates through the second support plate and extends upwards, the springs are arranged on the guide pillars, two end surfaces of each spring are respectively abutted against the first support plate and the second support plate, grooves corresponding to the outer edges of the electromagnetic iron removers are formed in the second support plates and are used for placing the electromagnetic iron removers, through holes smaller than the outer edges of the electromagnetic iron removers are formed in the first support plate and the second support plates, one end face of the guide pillar extending upwards is fixedly connected with the top cover, and the top cover is fixedly connected with a vibration motor.

Preferably, the base support comprises a telescopic rod, a base and a lock catch, a threaded hole for installing the lock catch is formed in the side wall of the telescopic rod, the lock catch and the telescopic rod are detachably connected, the base is in sliding connection with the telescopic rod, a lock hole is formed in the base, the lock hole in the base and the threaded hole in the telescopic rod are located on the same side face, and the lock holes are sequentially arranged from top to bottom through the side wall of the base.

Preferably, be provided with funnel and filter in the first frame, filter fixed mounting sets up a plurality of round holes that the size is the same between first frame and impeller crusher on the filter, and round hole evenly distributed is on the filter, and funnel fixed mounting is in the filter below.

Preferably, the conveying module comprises a hopper and a conveying belt, the conveying belt extends to the upper side of a feeding hole of the secondary crushing module from one side of the primary crushing module close to the secondary crushing module, the hopper is fixedly installed on one side of the conveying belt close to the primary crushing module, the hopper is located under the hopper, and an opening face of the hopper faces towards the hopper.

Preferably, the conveying belt is provided with baffles, the baffles are fixedly arranged on the belt of the conveying belt, and the baffles are provided with a plurality of groups which are uniformly distributed on the conveying belt.

Preferably, the waste material box that is used for collecting iron impurity is provided with below the conveyer belt hopper, and the waste material box opening face upwards, and the width requirement is not less than the hopper width.

Compared with the prior art, the beneficial effect of this application is:

1. this application is through being provided with primary crushing module with a combined material breaker for producing cement, the transport module, metal separation module and second grade crushing module, metal separation module includes second frame and electromagnetism de-ironing separator, primary crushing module is provided with impeller crusher and is used for the first frame of fixed mounting impeller crusher, second grade crushing module is roller mill, the transport module is located between primary crushing module and the second grade crushing module, transport module's direction of transfer is by the directional second grade crushing module of primary crushing module. The during operation, through putting into the inside preliminary broken decomposition that carries on of impeller crusher with cement combined material, then flow in transport module, can be separated by the iron impurity among the cement combined material of electromagnetism de-ironing separator to the primary broken decomposition at transport module transportation in-process, the cement combined material of getting rid of iron impurity is sent to the broken graininess that becomes to meet the demands of second grade crushing module, the operation that needs to stop primary crushing module of work for a certain time, clear away the adsorbed iron impurity on the electromagnetism de-ironing separator, avoid influencing the adsorption effect, when clearing away, only need be to the outage of electromagnetism de-ironing separator in, make the transfer module reversal, iron impurity drops and can be sent to the transfer module bottom on the transfer module.

2. This application is installed on the top cap through setting up vibrating motor, and when vibrating motor circular telegram vibrations, the second backup pad just can slide on the guide pillar owing to vibrations to high frequency slides about driving the electromagnetism de-ironing separator, thereby drops some little iron impurity on the conveyer belt from the electromagnetism de-ironing separator.

3. This application is through setting up the base support into scalable structure, offer the screw hole that is used for installing the hasp on the telescopic link lateral wall, the hasp is detachable with the telescopic link and is connected, base and telescopic link sliding connection, set up the multiunit lockhole corresponding with the telescopic link screw hole on the base, the lockhole is arranged by base lateral wall top-down order, before work, artifical accessible slip telescopic link makes the electromagnetism de-ironing separator adjust to suitable position, then rotatory lockhole to on the base with the hasp, can fix the position of base and telescopic link.

4. The conveyor belt and the hopper are arranged, the cement mixed material filtered by the first crushing device is conveyed to the conveyor belt through the hopper, and is conveyed to the feeding hole of the secondary crushing module through the conveyor belt; when cleaing away indisputable impurity, transport the hopper with indisputable impurity through the conveyer belt in, make things convenient for artificial clearance to collect.

5. This application is through setting up a filter and installing the funnel in the filter below between first support and impeller breaker, has seted up a plurality of round holes on the filter and is used for filtering the cement combined material that meets the requirements, and the cement combined material that meets the requirements can be along funnel flow direction transport module.

Drawings

FIG. 1 is a perspective view of the present application;

FIG. 2 is a front view of the present application;

FIG. 3 is a perspective view of a metal separation module of the present application;

FIG. 4 is an enlarged view of a portion of FIG. 3 of the present application;

FIG. 5 is an enlarged view of a portion of the present application at B of FIG. 3;

FIG. 6 is a perspective view of a first frame of the present application;

FIG. 7 is a perspective view of a transfer module of the present application;

the reference numbers in the figures are:

1-a primary crushing module; 1 a-impeller type pulverizer; 1 b-a first gantry; 1b 1-filter plate; 1b 2-funnel;

2-a transfer module; 2 a-a hopper; 2 b-a conveyor belt; 2b 1-baffle; 2 c-waste bin;

3-a metal separation module; 3 a-a second rack; 3a 1-base support; 3a1 a-telescoping rod; 3a1a 1-threaded hole; 3a1 b-base; 3a1b 1-keyhole; 3a1 c-catch; 3a 2-first support plate; 3a 3-second support plate; 3a 4-top cover; 3a 5-guide post; 3a 6-spring; 3 b-an electromagnetic iron remover; 3 c-a vibration motor;

4-a secondary crushing module; 4 a-a roller mill;

Detailed Description

For further understanding of the features and technical means of the present invention, as well as the specific objects and functions attained by the present invention, the present invention will be described in further detail with reference to the accompanying drawings and detailed description.

As shown in fig. 1-7, the present application provides:

a mixed material crushing device for producing cement comprises a primary crushing module 1, a transmission module 2, a metal separation module 3 and a secondary crushing module 4, wherein the metal separation module 3 comprises a second rack 3a and an electromagnetic iron remover 3b, the second rack 3a penetrates through two side walls of the transmission module 2 and is horizontally placed on the ground, the electromagnetic iron remover 3b is fixedly arranged inside the second rack 3a, and the electromagnetic iron remover 3b is close to one side of the conveying module 2 for conveying the cement mixed material, the primary crushing module 1 is provided with an impeller type crusher 1a and a first frame 1b for fixedly installing the impeller type crusher 1a, the secondary crushing module 4 is arranged on any side surface of the primary crushing module 1, the secondary crushing module 4 is a roller type crusher 4a, the conveying module 2 is positioned between the primary crushing module 1 and the secondary crushing module 4, and the conveying direction of the conveying module 2 is directed to the secondary crushing module 4 from the primary crushing module 1.

Based on the above embodiment, the technical problem that this application wants to solve is that the iron impurity contained in the cement mixed material raw materials can lead to the wearing and tearing of acceleration equipment in the crushing process, very big increase manufacturing cost. For this, the present application provides a mixed material crushing apparatus for producing cement by providing a primary crushing module 1, a transfer module 2, a metal separating module 3 and a secondary crushing module 4, the metal separating module 3 including a second frame 3a and an electromagnetic iron remover 3b, the primary crushing module 1 being provided with an impeller crusher 1a and a first frame 1b for fixedly mounting the impeller crusher 1a, the secondary crushing module 4 being a roller crusher 4a, the transfer module 2 being located between the primary crushing module 1 and the secondary crushing module 4, a transfer direction of the transfer module 2 being directed from the primary crushing module 1 to the secondary crushing module 4. The during operation, carry out preliminary broken decomposition through putting into cement combined material inside impeller crusher 1a, then flow into transport module 2, can be separated the iron impurity among the cement combined material that elementary broken decomposed by electromagnetic deironing ware 3b at transport module 2 in-process, cement combined material through getting rid of iron impurity is sent to second grade crushing module 4 and is broken into the graininess that accords with the requirement, work the operation that need stop elementary crushing module 1 for a certain time, clear away the last adsorbed iron impurity of electromagnetic deironing ware 3b, avoid influencing the adsorption effect, when clear away, only need be to electromagnetic deironing ware 3b outage the time, make transport module 2 reversal, iron impurity drops and can be sent to transport module 2 bottoms on transport module 2.

Further, as shown in fig. 1-4:

the metal separation module 3 comprises a vibration motor 3c, the second frame 3a comprises a base bracket 3a1, a first support plate 3a2, a second support plate 3a3, a top cover 3a4, guide posts 3a5 and springs 3a6, the bottom of the base bracket 3a1 is fixedly installed on the ground, the bottom bracket extends upwards from two side walls of the transmission module 2 to the upper part of the transmission module 2, the first support plate 3a2 is fixedly installed above the base bracket 3a1, the guide posts 3a5 are provided with a plurality of groups of upper plate surfaces uniformly distributed on the first support plate 3a2, the second support plate 3a3 is positioned above the first support plate 3a2 and is in sliding connection with the guide posts 3a5, one end surface of each guide post 3a5 is fixedly connected with the first support plate 3a2, the other end surface extends upwards through the second support plate 3a3, the guide posts 3a5 are provided with the springs 3a6, two end surfaces of the springs 3a6 are respectively abutted against the first support plate 3a2 and the second support plate 3a3, the second supporting plate 3a3 is provided with a groove adapted to the outer edge of the electromagnetic iron remover 3b for placing the electromagnetic iron remover 3b, the first supporting plate 3a2 and the second supporting plate 3a3 are both provided with through holes smaller than the outer edge of the electromagnetic iron remover 3b, one end face of the guide post 3a5 extending upwards is fixedly connected with the top cover 3a4, and the top cover 3a4 is fixedly connected with a vibration motor 3 c.

Based on the above embodiment, the technical problem that this application wants to solve is when cleaing away the iron impurity on the electromagnetic de-ironing separator 3b, to the electro-magnet outage, some little iron impurity still can adsorb on it. For this reason, this application is installed on top cap 3a4 through setting up vibrating motor 3c, and when vibrating motor 3c circular telegram vibrations, second backup pad 3a3 just can be because vibrations slide on guide pillar 3a5 to drive the high frequency slip about electromagnetic iron remover 3b, thereby drop some little iron impurity on conveyer belt 2b from electromagnetic iron remover 3 b.

Further, as shown in fig. 1, 3 and 5:

the base support 3a1 comprises an expansion link 3a1a, a base 3a1b and a lock catch 3a1c, a threaded hole 3a1a1 for installing the lock catch 3a1c is formed in the side wall of the expansion link 3a1a, the lock catch 3a1c is detachably connected with the expansion link 3a1a, the base 3a1b is slidably connected with the expansion link 3a1a, a lock hole 3a1b1 is formed in the base 3a1b, the lock hole 3a1b1 in the base 3a1b and the threaded hole 3a1a1 in the expansion link 3a1a are located on the same side face, and the lock holes 3a1b1 are sequentially arranged from top to bottom through the side wall of the base 3a1 b.

Based on the above embodiments, the technical problem that the present application intends to solve is that the distance from the electromagnetic iron remover 3b to the conveying module 2 may affect the effect of removing iron impurities. Therefore, the base support 3a1 is set to be a telescopic structure, a threaded hole 3a1a1 for installing the lock catch 3a1c is formed in the side wall of the telescopic rod 3a1a, the lock catch 3a1c is detachably connected with the telescopic rod 3a1a, the base 3a1b is slidably connected with the telescopic rod 3a1a, a plurality of groups of lock holes 3a1b1 corresponding to the threaded hole 3a1a1 of the telescopic rod 3a1a are formed in the base 3a1b, the lock holes 3a1b1 are sequentially arranged from top to bottom through the side wall of the base 3a1b, before working, the electromagnetic iron remover 3b can be adjusted to a proper position by manually sliding the telescopic rod 3a1a, and then the lock catch 3a1c is rotated to the lock hole 3a1b1 on the base 3a1b, so that the positions of the base 3a1b and the telescopic rod 3a1a can be fixed.

Further, as shown in fig. 1 and 6:

be provided with funnel 1b2 and filter 1b1 on first frame 1b, filter 1b1 fixed mounting is between first frame 1b and impeller crusher 1a, has seted up a plurality of round holes that the size is the same on filter 1b1, and round hole evenly distributed is on filter 1b1, and funnel 1b2 fixed mounting is in filter 1b1 below.

Based on the above embodiments, the technical problem that the present application intends to solve is how to avoid the inflow of the cement admixture not broken to meet the requirements into the transfer module 2. Therefore, the filter plate 1b1 and the funnel 1b2 arranged below the filter plate 1b1 are arranged between the first support and the impeller crusher, a plurality of round holes are formed in the filter plate 1b1 and used for filtering cement mixing materials meeting requirements, and the cement mixing materials meeting the requirements can flow to the conveying module 2 along the funnel 1b 2.

Further, as shown in fig. 1, 2 and 7:

the conveyor module 2 comprises a hopper 2a and a conveyor belt 2b, the conveyor belt 2b extending from the side of the primary crushing module 1 near the secondary crushing module 4 to above the feed opening of the secondary crushing module 4. The hopper 2a is fixedly arranged on the side of the conveyor belt 2b close to the primary crushing module 1, the hopper 2a is positioned right below the hopper 1b2, and the opening surface of the hopper 2a faces the hopper 1b 2.

Based on the above embodiments, the technical problem that the present application intends to solve is how the transfer module 2 transports the cement admixture and the iron impurities that need to be removed. For this purpose, the conveyor belt 2b and the hopper 2a are arranged, the cement mixed material filtered by the first crushing device is conveyed to the conveyor belt 2b through the hopper 2a, and is conveyed to the feeding hole of the secondary crushing module 4 through the conveyor belt 2 b; when cleaing away iron impurity, transport iron impurity to hopper 2a in through conveyer belt 2b, make things convenient for artificial clearance to collect.

Further, as shown in fig. 7:

the conveying belt 2b is provided with baffle plates 2b1, the baffle plates 2b1 are fixedly arranged on the conveying belt 2b, and the baffle plates 2b1 are provided with a plurality of groups which are uniformly distributed on the conveying belt 2 b.

Based on the above embodiment, the technical problem that the present application intends to solve is that the broken cement mixed material slips on the conveyor belt 2b during the conveying process of the conveyor belt 2 b. For this reason, the present application, by providing a plurality of sets of baffle plates 2b1 on the belt of the conveyor belt 2b, when the conveyor belt 2b runs, the cement admixture is stopped by the baffle plates 2b1 and is stably conveyed by the conveyor belt 2 b.

Further, as shown in fig. 1-2:

a waste material box 2c for collecting iron impurities is arranged below the hopper 2a of the conveying belt 2b, the opening surface of the waste material box 2c is upward, and the width requirement is not less than the width of the hopper 2a

Based on the above embodiment, the technical problem that this application wants to solve is that when removing the iron impurity of electromagnetic iron remover 3b, the iron impurity is transported to hopper 2a and needs manual removal, can be caused personnel injury by the cement piece that drops on primary crushing module 1. For this reason, this application is through preventing waste material box 2c in hopper 2a below, and when clearing away, the artifical bolt of keeping away from waste material box 2c direction that only needs to tear down hopper 2a both sides, hopper 2a just can take waste material box 2c top, has under conveyer belt 2 b's the drive, and iron impurity can collect in waste material box 2 c.

The above examples, which are intended to represent only one or more embodiments of the present invention, are described in greater detail and with greater particularity, and are not to be construed as limiting the scope of the utility model. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (7)

1. A mixed material crushing device for producing cement comprises a primary crushing module (1), a conveying module (2), a metal separation module (3) and a secondary crushing module (4), and is characterized in that the metal separation module (3) comprises a second rack (3a) and an electromagnetic iron remover (3b), the second rack (3a) penetrates through two side walls of the conveying module (2) and is horizontally placed on the ground, the electromagnetic iron remover (3b) is fixedly installed inside the second rack (3a), the electromagnetic iron remover (3b) is close to one side, conveying cement mixed materials, of the conveying module (2), the primary crushing module (1) is provided with an impeller type crusher (1a) and a first rack (1b) for fixedly installing the impeller type crusher (1a), and the secondary crushing module (4) is arranged on any one side face of the primary crushing module (1), the secondary crushing module (4) is a roller type crusher (4a), the conveying module (2) is positioned between the primary crushing module (1) and the secondary crushing module (4), and the conveying direction of the conveying module (2) is pointed to the secondary crushing module (4) from the primary crushing module (1).

2. A mixed material crushing device for producing cement according to claim 1, wherein the metal separation module (3) comprises a vibration motor (3c), the second frame (3a) comprises a base support (3a1), a first support plate (3a2), a second support plate (3a3), a top cover (3a4), guide pillars (3a5) and springs (3a6), the bottom of the base support (3a1) is fixedly installed on the ground, the base support (3a1) extends upwards from both side walls of the conveyor module (2) to above the conveyor module (2), the first support plate (3a2) is fixedly installed above the base support (3a1), the guide pillars (3a5) have a plurality of sets of plate surfaces evenly distributed on the first support plate (3a2), the second support plate (3a3) is located above the first support plate (3a2) and is slidably connected with the guide pillars (3a5), one end face of the guide pillar (3a5) is fixedly connected with the first supporting plate (3a2), the other end face penetrates through the second supporting plate (3a3) and extends upwards, springs (3a6) are arranged on the guide pillar (3a5), two end faces of the springs (3a6) are respectively abutted to the first supporting plate (3a2) and the second supporting plate (3a3), a groove matched with the outer edge of the electromagnetic iron remover (3b) is formed in the second supporting plate (3a3) and used for placing the electromagnetic iron remover (3b), through holes smaller than the outer edge of the electromagnetic iron remover (3b) are formed in the first supporting plate (3a2) and the second supporting plate (3a3), one end face of the guide pillar (3a5) extending upwards is fixedly connected with the top cover (3a4), and the vibration motor (3c) is fixedly connected to the top cover (3a 4).

3. The mixed material crushing device for producing cement according to claim 2, wherein the base bracket (3a1) comprises an expansion link (3a1a), a base (3a1b) and a lock catch (3a1c), a threaded hole (3a1a1) for mounting the lock catch (3a1c) is formed in the side wall of the expansion link (3a1a), the lock catch (3a1c) is detachably connected with the expansion link (3a1a), the base (3a1b) is slidably connected with the expansion link (3a1a), a lock hole (3a1b1) is formed in the base (3a1b), a lock hole (3a1b1) in the base (3a1b) and a threaded hole (3a1a1) in the expansion link (3a1a) are located on the same side face, and the lock holes (3a1b1) are sequentially arranged from top to bottom in the side wall of the base (3a1 b).

4. The mixed material crushing device for producing cement according to claim 1, wherein the first frame (1b) is provided with a funnel (1b2) and a filter plate (1b1), the filter plate (1b1) is fixedly installed between the first frame (1b) and the impeller crusher (1a), the filter plate (1b1) is provided with a plurality of round holes with the same size, the round holes are uniformly distributed on the filter plate (1b1), and the funnel (1b2) is fixedly installed below the filter plate (1b 1).

5. A crushing plant for mixed material for producing cement according to claim 4, wherein the conveyor module (2) comprises a hopper (2a) and a conveyor belt (2b), the conveyor belt (2b) extending from the side of the primary crushing module (1) close to the secondary crushing module (4) to above the feed opening of the secondary crushing module (4), the hopper (2a) being fixedly mounted on the side of the conveyor belt (2b) close to the primary crushing module (1), the hopper (2a) being located directly below the hopper (1b2), the open face of the hopper (2a) facing the hopper (1b 2).

6. A crushing plant for mixed materials for the production of cement according to claim 5, characterized in that the conveyor belt (2b) is provided with baffles (2b1), the baffles (2b1) being fixedly mounted on the belt of the conveyor belt (2b), the baffles (2b1) having a plurality of groups evenly distributed on the conveyor belt (2 b).

7. A crushing apparatus for mixed material for cement production according to claim 5, wherein a scrap box (2c) for collecting iron impurities is provided under the hopper (2a) of the conveyor (2b), and the scrap box (2c) has an opening facing upward and has a width not smaller than the width of the hopper (2 a).

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