CN214659165U - Steel construction factory building is used in mortar production - Google Patents

Abstract

The utility model provides a steel construction factory building is used in mortar production aims at solving the steel construction factory building among the prior art and in the in-process of production mortar, has a large amount of dusts to produce, pollutes the problem of factory building air easily. Steel construction factory building is used in mortar production, including the factory building room body, the factory building room body is including setting up at the room body steel construction wallboard all around, setting up the ceiling at steel construction wallboard top and the cement floor that is located the bottom, be equipped with the support column between ceiling and the cement floor, link to each other through rag bolt between support column and the ground, be provided with the crossbeam between room body each steel construction wallboard all around and/or the support column, the subaerial stone storehouse support that is equipped with of the factory building room body, the ground of the factory building room body is equipped with the blowpit downwards, and the blowpit is located the below of stone storehouse support, the upper end of blowpit is equipped with the dust remover, the dust absorption mouth of dust remover sets up towards the notch of blowpit. In this disclosure, the cooperation of dust remover and blowpit has improved the effect that the dust was got rid of to the stone storehouse.

Description

Steel construction factory building is used in mortar production

Technical Field

The utility model belongs to the technical field of mortar production, concretely relates to steel construction factory building is used in mortar production.

Background

The steel structure factory building for producing the mortar is a steel structure factory building for producing the mortar in the mortar production process; as the production equipment is protected in the mortar production process and the produced dust is prevented from polluting the air in the mortar production process, the production of the mortar is carried out in a steel structure factory building.

However, in the mortar production process, especially when the mortar is transferred from one processing link to the next processing link, the mortar needs to be unloaded and transferred, a large amount of dust is generated in the process, so that a large amount of dust is easily generated in the whole workshop, and the following problems are caused by the large amount of dust: 1. air in the workshop is polluted, so that the health of workers is influenced; 2. dust can be scattered at each corner in the factory building, and the cleaning is troublesome; 3. affecting the service life of mortar production equipment, etc.

SUMMERY OF THE UTILITY MODEL

The utility model provides a steel construction factory building is used in mortar production aims at solving the steel construction factory building among the prior art and in the in-process of production mortar, has a large amount of dusts to produce, pollutes the problem of factory building air easily.

In order to solve the technical problem, the technical scheme adopted by the disclosure is as follows: the utility model provides a steel construction factory building is used in mortar production, includes the factory building room body, the factory building room body is including setting up at room body steel construction wallboard all around, setting up the ceiling at steel construction wallboard top and the cement floor that is located the bottom, be equipped with the support column between ceiling and the cement floor, link to each other through rag bolt between support column and the ground, be provided with the crossbeam between room body each steel construction wallboard all around and/or the support column, the subaerial stone storehouse support that is equipped with of the factory building room body, the ground of the factory building room body is equipped with the blowpit downwards, and the blowpit is located the below of stone storehouse support, the upper end of blowpit is equipped with the dust remover, the dust absorption mouth of dust remover sets up towards the notch of blowpit.

The further improved scheme is as follows: steel construction factory building is used in mortar production still includes stone storehouse and conveyer belt mechanism, the stone storehouse is installed on stone storehouse support, and is located the discharge opening of stone storehouse lower extreme and is located conveyer belt mechanism's top, the dust absorption mouth of dust remover sets up towards the discharge opening.

Based on above-mentioned technical scheme, the stone storehouse is used for saving the stone to lift the stone off through the discharge opening and to conveyer belt mechanism, conveyer belt mechanism is used for transporting the stone to next operation link, and the dust absorption mouth of dust remover sets up towards the discharge opening, produced dust when the stone is unloaded in absorption that can be better.

The further improved scheme is as follows: the discharge chute is a square chute formed by the downward concave of the ground.

The further improved scheme is as follows: the steel structure factory building for mortar production also comprises three sliding covers which correspond to the three edges of the opening of the discharge chute one by one and are horizontally arranged, and the sliding covers are arranged on the cement floor in a sliding manner through sliding rails arranged on the cement floor; the sliding cover comprises a shielding state and an opening state; when the sliding cover is in a shielding state, the sliding cover slides to the upper part of the discharge chute and shields part of the opening of the discharge chute; when the shielding plate is in the opening state, the sliding cover is arranged far away from the discharge chute; when the three sliding covers are in a shielding state, an operation opening for discharging materials and discharging materials is formed, and a dust suction opening of the dust remover is arranged towards the operation opening.

Based on above-mentioned technical scheme, set up the sliding closure, can further reduce when unloading the stone, the scope that the dust spilled over from the blowpit more does benefit to the absorption effect that improves the dust remover to the dust.

The further improved scheme is as follows: the outer surface of the sliding cover is provided with an inward concave handle, and the inward concave handle is positioned on one side far away from the opening of the discharge chute.

Based on above-mentioned technical scheme, set up the handle of indent formula, on the one hand, be favorable to the push-and-pull sliding closure, on the other hand adopts the indent formula, can prevent to trip the staff.

The further improved scheme is as follows: the cross section of the slide rail is a U-shaped groove, sliding grooves for blocking two sides of the sliding cover are arranged on two sides of the slide rail, and the upper surface of the slide rail is flush with the cement floor.

Based on above-mentioned technical scheme, set up the slide rail into with cement floor parallel and level, can prevent to trip the staff.

The further improved scheme is as follows: the discharge chute is located above the ground, and the discharge chute is a square chute formed by four cement enclosing plates in a surrounding mode.

The further improved scheme is as follows: the outer edges of the upper end surfaces of the three cement enclosing plates are hinged with a shielding plate, and the shielding plate comprises a shielding state and an opening state; when the shielding plate is in a shielding state, the shielding plate is horizontally arranged above the discharge chute and shields part of the opening of the discharge chute; when the shielding plate is in an open state, the shielding plate is overturned to the outer side of the cement enclosing plate; when the three shielding plates are in a shielding state, an operation opening for discharging and discharging is formed, and the dust suction opening of the dust remover is arranged towards the operation opening.

Based on above-mentioned technical scheme, set up the shielding plate, when can further reducing and unload the stone, the scope that the dust spilled over from the blowpit more does benefit to the absorption effect that improves the dust remover to the dust.

The beneficial effect of this disclosure does:

the steel structure factory building for mortar production in the disclosure is mainly used for transferring stones in a stone warehouse to the next operation link in the mortar production process. The factory building room body is simple in overall structure including steel structure wallboard, the ceiling that sets up at steel structure wallboard top and the cement floor that is located the bottom that sets up around the room body. The subaerial stone storehouse support that is equipped with of factory building room body, the subaerial blowpit that is equipped with of factory building room body, the blowpit is located the below of stone storehouse support, the upper end of blowpit is equipped with the dust remover, the dust absorption mouth of dust remover sets up towards the notch of blowpit. In the steel structure factory building for mortar production, the stone storehouse can unload stones in the discharge chute, dust can be prevented from scattering around in the process of unloading the stones, the dust can only spread towards the direction of the notch of the discharge chute, and the dust collector is arranged at the notch of the discharge chute, so that the dust spread out from the notch of the discharge chute can be sucked away; the cooperation of dust remover and blowpit can improve the effect that the dust was got rid of in stone storehouse.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present disclosure, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present disclosure and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings may be obtained from the drawings without inventive effort.

Fig. 1 is a schematic structural diagram of a plant house in the present disclosure.

Fig. 2 is a schematic structural view of a support column in the present disclosure.

Fig. 3 is a schematic structural diagram of a discharge chute and a stone bank in an embodiment of the disclosure.

Fig. 4 is a schematic structural view of the sliding cover and the sliding rail in the disclosure.

Fig. 5 is a schematic structural view of a discharge chute in a second embodiment of the present disclosure.

The reference numbers in the figures illustrate:

1-steel structural wallboard; 2-ceiling; 3-cement floor; 4-a support column; 5-a cross beam; 6-stone reservoir support; 7-pebble storage; 8-a dust remover; 9-a discharge chute; 10-a sliding cover; 11-a shielding plate; 12-a slide rail; 13-conveyor mechanism.

Detailed Description

The technical solution in the embodiments of the present disclosure will be clearly and completely described below with reference to the drawings in the embodiments of the present disclosure. It should be understood that the specific embodiments described herein are merely illustrative of the disclosure and are not intended to limit the disclosure. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the disclosure without inventive step, are within the scope of the disclosure.

The first embodiment is as follows:

referring to fig. 1 and 2, a steel construction factory building is used in mortar production, including the factory building room body, the factory building room body is including setting up at room body steel construction wallboard 1 all around, setting up at ceiling 2 at steel construction wallboard 1 top and the cement floor 3 that is located the bottom, be equipped with support column 4 between ceiling 2 and the cement floor 3, link to each other through rag bolt between support column 4 and the ground, be provided with crossbeam 5 between each steel construction wallboard 1 and/or the support column 4 all around of the room body, the subaerial stone storehouse support 6 that is equipped with of the factory building room body, the ground of the factory building room body is equipped with blowpit 9 downwards, and blowpit 9 is located the below of stone storehouse support 6, the upper end of blowpit 9 is equipped with dust remover 8, dust remover 8's dust absorption mouth sets up towards the notch of blowpit 9.

Wherein, can adopt modes such as rag bolt to fix between steel construction wallboard 1 and the cement floor 3. The stone storehouse support 6 is used for installing and supporting the stone storehouse 7, and the shape of the stone storehouse support 6 can be correspondingly set according to the actual application environment and the specification of the stone storehouse 7. The dust remover 8 can be 48-bag dust remover 8 and the like.

Referring to fig. 3, on the basis of the scheme, the steel structure factory building for mortar production further comprises a stone storage 7 and a conveyor belt mechanism 13, wherein the stone storage 7 is installed on the stone storage support 6, a discharge opening located at the lower end of the stone storage 7 is located above the conveyor belt mechanism 13, and a dust suction opening of the dust remover 8 is arranged towards the discharge opening. Wherein, stone storehouse 7 is used for saving the stone to lift off the stone through the discharge opening and reach conveyor belt mechanism 13, conveyor belt mechanism 13 is used for transporting the stone to next operation link, and the dust absorption mouth of dust remover 8 sets up towards the discharge opening, produced dust when the stone is unloaded in absorption that can be better. The conveying belt mechanism 13 mainly includes two belt wheels and a belt sleeved between the two belt wheels.

Referring to fig. 3, on the basis of any scheme, the discharge chute 9 is a square chute formed by inwards concave ground. The scheme of further improvement is as follows: the steel structure factory building for mortar production further comprises three sliding covers 10 which correspond to the three edges of the opening of the discharge chute 9 one by one and are horizontally arranged, and the sliding covers 10 are arranged on the cement floor 3 in a sliding mode through sliding rails 12 arranged on the cement floor 3; the slide cover 10 includes a shielding state and an opening state; when the sliding cover 10 is in the shielding state, the sliding cover 10 slides to the upper part of the discharge chute 9 and shields part of the opening of the discharge chute 9; when the baffle plate 11 is in the open state, the sliding cover 10 is arranged far away from the discharge chute 9; when the three sliding covers 10 are in a shielding state, an operation opening for discharging materials and discharging materials is formed, and a dust suction opening of the dust remover 8 is arranged towards the operation opening. The discharge opening of the stone storage 7 extends into the discharge chute 9 from the operation opening, one end of the conveyor belt mechanism 13 is positioned in the discharge chute 9, and the other end of the conveyor belt mechanism passes through the operation opening and is positioned on the cement floor 3. When the sliding cover 10 is in a shielding state, the range of dust overflowing from the discharge chute 9 during stone unloading can be further reduced, and the dust absorption effect of the dust remover 8 on dust can be improved.

On the basis of any scheme, the outer surface of the sliding cover 10 is provided with an inward concave handle, and the inward concave handle is positioned on one side far away from the opening of the discharge chute 9. Based on the technical scheme, the concave handle is arranged, so that the sliding cover 10 can be pushed and pulled conveniently.

Referring to fig. 4, the cross section of the slide rail 12 is a U-shaped groove, sliding grooves for blocking two sides of the sliding cover 10 are disposed on two sides of the slide rail 12, and the upper surface of the slide rail 12 is flush with the cement floor 3.

Example two:

referring to fig. 5, the difference from the first embodiment is that the discharge chute 9 is located above the ground, and the discharge chute 9 is a square chute surrounded by four cement enclosing plates.

On the basis of the scheme, the shielding plates 11 are hinged to the outer edges of the upper end surfaces of the three cement enclosing plates, and the shielding plates 11 comprise shielding states and opening states; when the shielding plate 11 is in a shielding state, the shielding plate 11 is horizontally arranged above the discharging chute 9 and shields part of the opening of the discharging chute 9; when the shielding plate 11 is in an open state, the shielding plate 11 is turned over to the outer side of the cement enclosing plate; when the three shielding plates 11 are in a shielding state, a working opening for discharging and discharging is formed, and the dust suction opening of the dust remover 8 is arranged towards the working opening. The baffle plate 11 is arranged, so that the range of dust overflowing from the discharge chute 9 can be further reduced when stones are discharged, and the dust absorption effect of the dust remover 8 on the dust can be improved.

The disclosure is further illustrated below in conjunction with the working principle:

when the stone storehouse 7 unloads out the stone, sliding closure 10 or shielding plate 11 are in the state of sheltering from, and the stone whereabouts in-process can produce a large amount of dusts, and the dust has reduced to fly upward everywhere because the effect of blowpit 9, and under sliding closure 10 or shielding plate 11 effect, the dust flows towards the operation mouth, and the direction of dust catcher 8 dust absorption mouth has also improved dust removal effect. The cooperation of dust remover 8 and blowpit 9 has improved the effect that stone storehouse 7 got rid of the dust.

The present disclosure is not limited to the above optional embodiments, and on the premise of no conflict, the schemes can be combined arbitrarily; any other products in various forms can be obtained in the light of the present disclosure, but any changes in shape or structure thereof fall within the scope of the present disclosure, which is defined by the claims.

Claims (8)

1. The utility model provides a steel construction factory building is used in mortar production, a serial communication port, including the factory building room body, the factory building room body is including setting up at room body steel construction wallboard all around, setting up the ceiling at steel construction wallboard top and the cement floor that is located the bottom, be equipped with the support column between ceiling and the cement floor, link to each other through rag bolt between support column and the ground, be provided with the crossbeam between each steel construction wallboard all around of the room body and/or the support column, the subaerial stone storehouse support that is equipped with of the factory building room body, the ground of the factory building room body is equipped with the blowpit downwards, and the blowpit is located the below of stone storehouse support, the upper end of blowpit is equipped with the dust remover, the dust absorption mouth of dust remover sets up towards the notch of blowpit.

2. The steel structure factory building for mortar production according to claim 1, further comprising a stone warehouse and a conveyor belt mechanism, wherein the stone warehouse is mounted on the stone warehouse support, a discharge opening at the lower end of the stone warehouse is located above the conveyor belt mechanism, and a dust suction opening of the dust remover is arranged towards the discharge opening.

3. The steel structure factory building for mortar production according to claim 1 or 2, wherein the discharge chute is a square chute formed by a downward concave surface.

4. The steel structure factory building for mortar production according to claim 3, further comprising three sliding covers which are horizontally arranged and correspond to the three edges of the opening of the discharge chute one by one, wherein the sliding covers are arranged on the cement floor in a sliding manner through sliding rails arranged on the cement floor; the sliding cover comprises a shielding state and an opening state; when the sliding cover is in a shielding state, the sliding cover slides to the upper part of the discharge chute and shields part of the opening of the discharge chute; when the shielding plate is in the opening state, the sliding cover is arranged far away from the discharge chute; when the three sliding covers are in a shielding state, an operation opening for discharging materials and discharging materials is formed, and a dust suction opening of the dust remover is arranged towards the operation opening.

5. The steel structure factory building for mortar production according to claim 4, wherein the outer surface of the sliding cover is provided with a concave handle, and the concave handle is positioned on the side far away from the opening of the discharge chute.

6. The steel structure factory building for mortar production according to claim 4, wherein the cross section of the slide rail is a U-shaped groove, sliding grooves for blocking two sides of the sliding cover are arranged on two sides of the slide rail, and the upper surface of the slide rail is flush with the cement floor.

7. The steel structure factory building for mortar production according to claim 1 or 2, wherein the discharge chute is located above the ground, and the discharge chute is a square chute surrounded by four cement enclosing plates.

8. The steel structure factory building for mortar production according to claim 7, wherein the outer edges of the upper end surfaces of the three cement enclosing plates are hinged with a shielding plate, and the shielding plate comprises a shielding state and an opening state; when the shielding plate is in a shielding state, the shielding plate is horizontally arranged above the discharge chute and shields part of the opening of the discharge chute; when the shielding plate is in an open state, the shielding plate is overturned to the outer side of the cement enclosing plate; when the three shielding plates are in a shielding state, an operation opening for discharging and discharging is formed, and the dust suction opening of the dust remover is arranged towards the operation opening.

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