CN218133270U - Building energy-saving construction device - Google Patents

Abstract

The utility model discloses a building energy conservation construction equipment, including the processing section of thick bamboo, processing bobbin base portion is provided with the support frame that plays the supporting role, the inside stirring subassembly that is provided with of processing section of thick bamboo, the stirring subassembly includes and rotates the puddler of being connected with the processing section of thick bamboo, fixedly connected with multiunit stirring vane on the puddler, install a servo motor that is used for ordering about puddler pivoted on the processing section of thick bamboo lateral wall, the inside still vertical rotation of processing section of thick bamboo is connected with the bulk cargo dish, servo motor orders about puddler pivoted in-process and drives the bulk cargo dish through drive mechanism again and rotate, processing bobbin base portion still is provided with filtering component. Inside raw materials transmission to a processing section of thick bamboo with required screening operation, servo motor orders about puddler pivoted in-process again and drives the bulk cargo dish through drive mechanism and rotates, will enter into the inside raw materials of a processing section of thick bamboo and break up, then filters through filtering component, obtains required sand and improves screening efficiency.

Description

Building energy-saving construction device

Technical Field

The utility model relates to a construction technical field specifically is a building energy conservation construction equipment.

Background

The building construction refers to the production activities in the engineering construction implementation stage and is the construction process of various buildings. Various solid or liquid building construction materials are used in the building construction process, and sometimes the building construction materials need to be mixed, stirred and filtered to obtain mixtures with different indexes before being used in building construction. In order to ensure the quality of the concrete, it is therefore necessary to sieve the sand, for example to remove the debris from the sand.

Present building energy saving construction equipment, like the chinese patent of application number 201921528953.X name "a building energy saving construction equipment", disclose a building energy saving construction equipment, including the device main part, one side of device main part is provided with the loading board, the upper end of loading board is provided with brake motor, the inside of the device main part of one side of brake motor runs through and is provided with the transmission shaft, the outside of transmission shaft is provided with the stirring leaf, the top of the transmission shaft of the inside of device main part is provided with filtering mechanism, the front end surface of device main part runs through and is provided with the bearing groove, the inside of bearing groove is provided with fixed establishment, the below of the transmission shaft of fixed establishment's inside is provided with the filter screen, the below of the bearing groove of the front end surface of device main part runs through and is provided with row's husky mouth.

The defects of the prior art are as follows: above-mentioned patent passes through the cooperation between stirring vane and the filtering mechanism etc, can be convenient for filter the sand, is convenient for change the filter screen simultaneously, improves energy-conservation nature, including prior art including above-mentioned patent, before filtering, directly piles up the sand and filters in filtering, if meet great sand bonding together, is difficult to filter before not breaing up to influence work efficiency.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a building energy conservation construction equipment to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above purpose, the utility model provides a following technical scheme: the utility model provides a building energy conservation construction equipment, includes the processing section of thick bamboo, processing bobbin base portion is provided with the support frame that plays supporting role, the inside stirring subassembly that is provided with of processing section of thick bamboo, the stirring subassembly includes rotates the puddler of being connected with the processing section of thick bamboo, fixedly connected with multiunit stirring vane on the puddler, install one on the processing section of thick bamboo lateral wall and be used for ordering about puddler pivoted servo motor, the inside vertical rotation that still goes back of processing section of thick bamboo is connected with the bulk cargo dish, servo motor orders about puddler pivoted in-process and drives the bulk cargo dish through drive mechanism again and rotate, processing bobbin base portion still is provided with filtering component.

Further, the filtering component comprises a first-stage filter screen and a second-stage filter screen which are sequentially arranged inside the processing cylinder from top to bottom, a plurality of groups of discharge channels are arranged on the processing cylinder, and the first-stage filter screen and the second-stage filter screen are respectively in one-to-one correspondence with the discharge channels.

Further, drive mechanism includes montant and horizontal pole, the montant is vertical to be rotated and to be connected inside the processing section of thick bamboo, bulk cargo dish fixed connection is in the montant bottom, the horizontal pole passes through the mounting and rotates to be connected on the processing section of thick bamboo top, be connected through the drive belt transmission between horizontal pole and the puddler, be connected through the drive unit transmission between horizontal pole and the montant.

Further, the transmission unit comprises a master gear and a slave gear, the master gear is fixedly connected to the top of the vertical rod, the slave gear is arranged at one end of the cross rod, which is far away from the transmission belt, and the master gear is meshed with the slave gear.

Furthermore, a plurality of groups of feed inlets are formed in the top of the processing barrel, and a material guide pipe is arranged in each feed inlet.

Furthermore, all install the electromagnetic shaker on one-level filter screen and the second grade filter screen.

Furthermore, the primary filter screen and the secondary filter screen are both in an inclined state.

Furthermore, discharge pipelines are arranged at the bottom of the processing barrel, and valves are arranged on the discharge channels and the discharge pipelines.

Compared with the prior art, the beneficial effects of the utility model are that: this building energy-saving construction device, through a processing section of thick bamboo, the stirring subassembly, the puddler, stirring vane, servo motor, the bulk cargo dish, cooperation between drive mechanism and the filter assembly, raw materials transmission to the processing section of thick bamboo inside with required screening operation, servo motor orders about puddler pivoted in-process and drives the bulk cargo dish through drive mechanism again and rotates, will enter into the inside raw materials of processing section of thick bamboo and break up, then filter through filter assembly, obtain required sand, the sand block that avoids bonding together blocks up the filter screen, improve screening efficiency, play energy-conserving effect simultaneously.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present invention, and other drawings can be obtained by those skilled in the art according to these drawings.

Fig. 1 is a schematic view of an overall structure provided by an embodiment of the present invention;

fig. 2 is a schematic overall top view structure diagram provided in the embodiment of the present invention;

FIG. 3 isbase:Sub>A schematic cross-sectional view taken along A-A of FIG. 2;

fig. 4 is a schematic view of an internal structure of a processing cylinder according to an embodiment of the present invention;

fig. 5 is a schematic view of a mounting position structure of the vibrator according to an embodiment of the present invention.

Description of reference numerals: 1. processing the cylinder; 2. a stirring assembly; 201. a stirring rod; 202. a stirring blade; 3. a bulk material tray; 4. a servo motor; 5. a transmission mechanism; 501. a vertical rod; 502. a cross bar; 503. a main gear; 504. a slave gear; 505. a drive belt; 506. a fixing member; 6. a first-stage filter screen; 7. a secondary filter screen; 8. a discharge channel; 9. a vibrator; 10. a discharge pipeline; 11. a material guide pipe; 12. a support frame; 13. and (4) feeding a material inlet.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: the utility model provides a building energy-saving construction device, including a processing section of thick bamboo 1, 1 bottom of a processing section of thick bamboo is provided with support frame 12 that plays supporting role, 1 inside stirring subassembly 2 that is provided with of a processing section of thick bamboo, stirring subassembly 2 includes and rotates puddler 201 of being connected with a processing section of thick bamboo 1, fixedly connected with multiunit stirring vane 202 on the puddler 201, install one on 1 lateral wall of a processing section of thick bamboo and be used for ordering about puddler 201 pivoted servo motor 4, 1 inside still vertical rotation of a processing section of thick bamboo is connected with bulk material dish 3, servo motor 4 orders about puddler 201 pivoted in-process and drives bulk material dish 3 through drive mechanism 5 again and rotates, 1 bottom of a processing section of thick bamboo still is provided with filtering component.

Specifically, the building energy-saving construction device comprises a processing cylinder 1, when in use, raw materials to be screened can be conveyed into the processing cylinder 1 through a conveyor belt, and then subsequent screening processing is carried out, wherein a support frame 12 playing a supporting role is arranged at the bottom of the processing cylinder 1 to play a supporting role; the processing cylinder 1 is internally provided with a stirring assembly 2, the stirring assembly 2 is arranged, so that raw materials entering the processing cylinder 1 can be dispersed conveniently, and subsequent screening operation can be performed conveniently, wherein the stirring assembly 2 comprises a stirring rod 201 rotationally connected with the processing cylinder 1, a plurality of groups of stirring blades 202 are fixedly connected to the stirring rod 201, and the plurality of groups of stirring blades 202 are driven to rotate through rotation of the stirring rod 201, wherein the plurality of groups of stirring blades 202 are distributed on the side wall of the stirring rod 201 by taking the circle center of the stirring rod 201 as an axis, a servo motor 4 for driving the stirring rod 201 to rotate is installed on the side wall of the processing cylinder 1, the output shaft of the servo motor 4 is coaxially connected with the stirring rod 201, the rotating shaft of the servo motor 4 rotates to further drive the stirring rod 201 to rotate, so that the plurality of groups of stirring blades 202 are driven to rotate, and screening efficiency is improved; the bulk material disc 3 is vertically and rotatably connected inside the processing barrel 1, and more specifically, the bulk material disc 3 is positioned above the stirring assembly 2, so that after the raw materials enter the processing barrel 1, the raw materials can be firstly contacted with the bulk material disc 3, the bulk material disc 3 rotates, under the action of inertia and centrifugal force, sand quickly impacts the inner wall of the processing barrel 1, sand blocks bonded together are scattered, and then the sand blocks are rotated through the stirring blades 202, so that the sand can be prevented from being bonded together, the working efficiency is prevented from being influenced, and the using effect is good; wherein servo motor 4 orders about puddler 201 pivoted in-process again through 5 drive bulk cargo dish 3 rotations of drive mechanism, can further improve servo motor 4's utilization ratio, plays energy-conserving effect, and wherein processing 1 bottom still is provided with filtering component, breaks up the back through bulk cargo dish 3 and stirring subassembly 2, filters through filtering component to sieve out required sand, excellent in use effect.

The filter component comprises a first-stage filter screen 6 and a second-stage filter screen 7 which are sequentially arranged inside the processing barrel 1 from top to bottom, a plurality of groups of discharge channels 8 are arranged on the processing barrel 1, and the first-stage filter screen 6 and the second-stage filter screen 7 are respectively in one-to-one correspondence with the discharge channels 8.

Preferably, wherein filter assembly includes from last to setting gradually at the inside one-level filter screen 6 of processing section of thick bamboo 1 and second grade filter screen 7 down, more specifically, the density of one-level filter screen 6 is greater than the density of second grade filter screen 7, consequently great grit is behind one-level filter screen 6, just can filter, the density of second grade filter screen 7 slightly is less than one-level filter screen 6, and simultaneously, can also set up tertiary filter screen or even level four filter screen, can design according to the operational environment of difference, raw materials after the filtration can be selected according to different work needs, if the preparation that needs finest sand carries out concrete etc., can select the raw materials after the filtration of the bottom one filter screen, processing section of thick bamboo 1 is last seted up with multiunit discharging channel 8, one-level filter screen 6 and second grade filter screen 7 respectively with each discharging channel 8 one-to-one, when needs are collected required raw materials, open its discharging channel 8 that corresponds can, excellent in use effect.

The transmission mechanism 5 comprises a vertical rod 501 and a cross rod 502, the vertical rod 501 is vertically and rotatably connected inside the processing barrel 1, the balk cargo tray 3 is fixedly connected to the bottom of the vertical rod 501, the cross rod 502 is rotatably connected to the top of the processing barrel 1 through a fixing piece 506, the cross rod 502 is in transmission connection with the stirring rod 201 through a transmission belt 505, the cross rod 502 is in transmission connection with the vertical rod 501 through a transmission unit, the transmission unit comprises a main gear 503 and a driven gear 504, the main gear 503 is fixedly connected to the top of the vertical rod 501, the driven gear 504 is arranged at one end of the cross rod 502, which is far away from the transmission belt 505, and the main gear 503 is meshed with the driven gear 504.

Preferably, the transmission mechanism 5 includes a vertical rod 501 and a horizontal rod 502, the vertical rod 501 is vertically and rotatably connected inside the processing cylinder 1, the bulk material disk 3 is fixedly connected at the bottom of the vertical rod 501, the horizontal rod 502 is rotatably connected at the top of the processing cylinder 1 through a fixing member 506, more specifically, the fixing member 506 is fixedly connected with the processing cylinder 1, and the horizontal rod 502 is rotatably connected with the fixing member 506, wherein the fixing member 506 may have multiple sets, the horizontal rod 502 is rotatably connected between the multiple sets of horizontal rods 502, wherein the horizontal rod 502 is rotatably connected with the stirring rod 201 through a transmission belt 505, more specifically, a tension wheel is provided between the horizontal rod 502 and the stirring rod 201, wherein the tension wheel is prior art and will not be described herein again, wherein the transmission unit is rotatably connected between the horizontal rod 502 and the vertical rod 501 through a transmission unit, the transmission unit includes a main gear 503 and a secondary gear 504, the main gear 503 is fixedly connected at the top of the vertical rod 501, the secondary gear is provided at an end of the horizontal rod 502 far from the transmission belt 505, the main gear 503 is engaged with the secondary gear 504, more specifically, the size of the main gear 503 is smaller than the size of the secondary gear 504, that is understood that the number of turns of the secondary gear 503 is less than 4, and the number of turns of the secondary gear 504, which is provided by the same number of turns provided more than the rotation number of turns of rotation of the primary gear 504, which is provided for the primary gear 504, more than the case of the primary gear 504, that is provided by the primary gear 504; therefore, when the sand screening machine is used, the servo motor 4 is started, the output shaft of the servo motor 4 rotates to further drive the stirring rod 201 to rotate, and therefore the stirring blades 202 of the multiple groups are driven to rotate, meanwhile, when the stirring rod 201 rotates, the cross rod 502 is driven to rotate through the transmission belt 505 to further drive the driven gear 504 to rotate, the vertical rod 501 is driven to rotate through the main gear 503, so that the material scattering disk 3 is driven to rotate through the vertical rod 501, and therefore bonded sand is scattered, the work efficiency during screening is improved, and the energy saving effect is achieved.

A plurality of groups of feed inlets 13 are formed in the top of the processing barrel 1, and a material guide pipe 11 is arranged in each feed inlet 13.

Preferably, wherein a plurality of groups of feed inlets 13 are provided at the top of the processing barrel 1, a material guide pipe 11 is provided in each feed inlet 13, wherein the end of the material guide pipe 11 points to the bulk material disk 3, so that the raw material can contact with the bulk material disk 3 in the first time after entering the processing barrel 1, the bonded sand blocks are scattered, and the working efficiency is improved.

The first-stage filter screen 6 and the second-stage filter screen 7 are both provided with vibrators 9.

Preferably, the vibrators 9 are mounted on the primary filter screen 6 and the secondary filter screen 7, so that filter screen blockage is avoided, and the screening efficiency is improved.

The primary filter screen 6 and the secondary filter screen 7 are both inclined.

Preferably, the primary filter screen 6 and the secondary filter screen 7 are both in an inclined state, so that the screened raw materials are rolled at the given positions by gravity factors and are convenient to collect.

The bottom of the processing barrel 1 is provided with a discharge pipeline 10, and each discharge channel 8 and the discharge pipeline 10 are provided with valves.

Preferably, a discharge pipeline 10 is arranged at the bottom of the processing barrel 1, valves are arranged on the discharge channels 8 and the discharge pipeline 10, the valves are selected to be opened and closed according to different working environment requirements, and the using effect is good.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides a building energy-saving construction device, is including processing a section of thick bamboo (1), processing a section of thick bamboo (1) bottom is provided with support frame (12) that play the supporting role, its characterized in that:

a stirring assembly (2) is arranged in the processing cylinder (1), the stirring assembly (2) comprises a stirring rod (201) which is rotatably connected with the processing cylinder (1), a plurality of groups of stirring blades (202) are fixedly connected to the stirring rod (201), and a servo motor (4) for driving the stirring rod (201) to rotate is mounted on the side wall of the processing cylinder (1);

the processing cylinder (1) is vertically and rotatably connected with a bulk material tray (3), and the bulk material tray (3) is driven to rotate by the servo motor (4) through the transmission mechanism (5) in the process of driving the stirring rod (201) to rotate;

the bottom of the processing cylinder (1) is also provided with a filtering component.

2. The construction apparatus for saving energy of buildings according to claim 1, characterized in that: the filter assembly comprises a first-stage filter screen (6) and a second-stage filter screen (7) which are sequentially arranged inside a processing barrel (1) from top to bottom, a plurality of groups of discharge passages (8) are formed in the processing barrel (1), and the first-stage filter screen (6) and the second-stage filter screen (7) are respectively in one-to-one correspondence with the discharge passages (8).

3. The construction apparatus for saving energy of buildings according to claim 1, characterized in that: the transmission mechanism (5) comprises a vertical rod (501) and a transverse rod (502), the vertical rod (501) is vertically and rotatably connected inside the processing barrel (1), and the bulk material disc (3) is fixedly connected to the bottom of the vertical rod (501);

the cross rod (502) is rotatably connected to the top of the processing cylinder (1) through a fixing piece (506), and the cross rod (502) is in transmission connection with the stirring rod (201) through a transmission belt (505);

the transverse rod (502) is in transmission connection with the vertical rod (501) through a transmission unit.

4. The construction equipment for building energy conservation as claimed in claim 3, wherein: the transmission unit comprises a main gear (503) and a slave gear (504), the main gear (503) is fixedly connected to the top of the vertical rod (501), the slave gear (504) is arranged at one end of the cross rod (502) far away from the transmission belt (505), and the main gear (503) is meshed with the slave gear (504).

5. The construction apparatus for saving energy of buildings according to claim 1, characterized in that: the processing barrel is characterized in that a plurality of groups of feed inlets (13) are formed in the top of the processing barrel (1), and a material guide pipe (11) is arranged in each feed inlet (13).

6. The construction apparatus for saving energy of buildings according to claim 2, characterized in that: and vibrators (9) are arranged on the primary filter screen (6) and the secondary filter screen (7).

7. The construction apparatus for saving energy of buildings according to claim 2, characterized in that: the primary filter screen (6) and the secondary filter screen (7) are both in an inclined state.

8. The construction apparatus for saving energy of buildings according to claim 2, characterized in that: the bottom of the processing barrel (1) is provided with a discharge pipeline (10), and each discharge channel (8) and the discharge pipeline (10) are respectively provided with a valve.

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