CN217664687U - Green building energy-saving construction equipment - Google Patents

Abstract

The application relates to green building energy-saving construction equipment which comprises a screening box, wherein a feeding hole is formed in the upper part of the screening box, a discharging pipe is communicated with one side of the screening box, a feeding hopper is arranged above the feeding hole, a feeding pipe is connected between the feeding hopper and the screening box, supporting plates for supporting the feeding hopper are arranged on two sides of the feeding hopper, and the bottom end of each supporting plate is fixedly connected with the upper surface of the screening box; the feeding pipe is internally and slidably connected with a sieve plate; a filter plate is arranged in the screening box, a discharge port is formed in one side of the screening box, the discharge port is communicated with a collecting box, and a material guide pipe is communicated with one side of the collecting box; the filter plate is obliquely arranged, and the bottom end of the filter plate extends into the discharge port; and the size of the filter holes of the sieve plate is larger than that of the filter plates. This application has the effect that improves construction equipment's screening efficiency.

Description

Green building energy-saving construction equipment

Technical Field

The application relates to the technical field of building construction, in particular to energy-saving construction equipment for a green building.

Background

In the building construction, concrete aggregates with different sizes are adopted for pouring because different buildings have different requirements on the strength of the concrete buildings; therefore, in order to improve the strength of the concrete building, workers are required to screen the concrete aggregate to obtain concrete aggregates with different sizes.

The existing construction equipment comprises a screening box and a screening plate arranged in the screening box, wherein the upper end of the screening box is provided with an opening, and the bottom end of the screening box is communicated with a discharge pipe; and injecting concrete aggregate into the screening box, and screening the concrete by the screen plate so as to realize the purpose of separating the concrete aggregate in a coarse and fine manner.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: in order to obtain concrete aggregates with different sizes, the screened concrete aggregates need to be poured into the screening boxes with different sizes of the filtering holes again for re-screening, and further the working efficiency of workers is affected.

SUMMERY OF THE UTILITY MODEL

In order to improve staff's work efficiency, this application provides an energy-conserving construction equipment of green building.

The application provides a green building energy-saving construction equipment adopts following technical scheme: the screening box is characterized by comprising a screening box, wherein a feeding hole is formed in the upper part of the screening box, a discharging pipe is communicated with one side of the screening box, a feeding hopper is arranged above the feeding hole, a feeding pipe is connected between the feeding hopper and the screening box, supporting plates for supporting the feeding hopper are arranged on two sides of the feeding hopper, and the bottom end of each supporting plate is fixedly connected with the upper surface of the screening box; the feeding pipe is internally and slidably connected with a sieve plate; a filter plate is arranged in the screening box, a discharge port is formed in one side of the screening box, the discharge port is communicated with a collecting box, and a material guide pipe is communicated with one side of the collecting box; the filter plate is arranged obliquely, and the bottom end of the filter plate extends into the discharge port; and the size of the filter holes of the sieve plate is larger than that of the filter plates.

Through adopting above-mentioned technical scheme, pour into the concrete granule into in to the feeder hopper, the concrete granule passes through the sieve, great concrete aggregate stays in inlet pipe and feeder hopper, the filtration carries out the secondary screening to the concrete granule in screening case 1, make the interior relatively great concrete granule of screening case pass through in the filter plate top gets into the collecting box, tiny concrete aggregate leaves the screening case through the discharging pipe, the purpose of multistage screening has been realized, staff's working strength has been reduced, need not the staff and screen the concrete alone, and then staff's work efficiency has been improved.

Optionally, a driving assembly for driving the sieve plate to move is arranged between the two supporting plates; the driving assembly comprises a cam, a driving motor for driving the cam to rotate and a return spring; the cam is always abutted with one end of the sieve plate; reset spring is located the one side that the inlet pipe deviates from the cam, reset spring is located between sieve and the backup pad, reset spring one end and sieve fixed connection.

Through adopting above-mentioned technical scheme, start driving motor, driving motor drives the cam and rotates, and the sieve is located between cam and the reset spring, through the rotation of cam and the extension that relapse between the reset spring, reciprocating motion is done along the horizontal direction to the sieve, the effectual possibility that has reduced the concrete granule and blockked up the sieve, further improves construction equipment screening efficiency's effect.

Optionally, the return spring is provided in plurality.

Through adopting above-mentioned technical scheme, a plurality of reset spring have reduced the possibility of sieve in-process reset spring skew, and then have guaranteed drive assembly's normal use, and a plurality of springs have improved the stability that the sieve removed along the horizontal direction.

Optionally, two limiting blocks are arranged between the feeding hopper and the supporting plate, the two limiting blocks are positioned on two symmetrical side walls of the feeding hopper, and the upper ends of the limiting blocks are fixedly connected with the side walls of the feeding hopper; the upper end of the supporting plate is provided with a fixing groove with an upward opening, and the bottom end of the limiting block is inserted into the fixing groove.

Through adopting above-mentioned technical scheme, the stopper is pegged graft in the fixed slot, and the effectual concrete granule feeding in-process that has reduced, the stability of feeder hopper self, the effectual phenomenon that has reduced feeder hopper self and take place the skew, and then improved construction equipment's stability.

Optionally, a vibration motor for driving the filter plate to vibrate is installed below the filter plate.

Through adopting above-mentioned technical scheme, vibrating motor drives the filter vibration, and the effectual filter that has reduced blocks up the possibility, has improved construction equipment's screening efficiency.

Optionally, the outer wall of the feeding hopper is fixedly connected with a plurality of handles which are arranged oppositely.

Through adopting above-mentioned technical scheme, the handle is convenient for remove or carry the feeder hopper with the staff, is convenient for exert oneself along with the feeder hopper, the effectual working strength who reduces the staff.

Optionally, be provided with first guide block in the screening case, first guide block top surface is the inclined plane, and the inclined plane bottom sets up towards the discharging pipe.

Through adopting above-mentioned technical scheme, the effectual concrete granule of having avoided of first guide block is piled up in the screening case, leaves the screening case to the concrete granule and has the guide effect.

Optionally, the material guide pipe is located on one side of the collecting box, which is away from the screening box, a second guide block is arranged in the collecting box, an inclined surface is arranged on one side of the second guide block, and the inclined surface is arranged towards the material guide pipe.

Through adopting above-mentioned technical scheme, the effectual concrete granule that has reduced of second guide block is piled up in the collecting box, leaves the collecting box to the concrete granule and has the guide effect.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the sieve plate is used for primarily sieving concrete particles, the filter plate is used for secondarily filtering materials in the sieving box, so that thicker concrete aggregate is left in the feed hopper and the feed pipe, larger concrete aggregate enters the collecting box, and smaller concrete aggregate enters the sun-screening box, and the effect of screening the concrete aggregate in multiple stages is achieved;

2. the drive assembly drives the sieve plate to move along the horizontal direction, the possibility that the concrete particles above the sieve plate block the sieve plate is effectively reduced, and the sieving effect of the sieve plate is further improved.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of the present application;

FIG. 2 is a cross-sectional view showing a filter plate;

fig. 3 is a partially enlarged view illustrating a portion a of fig. 2.

Description of reference numerals: 1. screening the box; 11. a feed inlet; 12. a feed pipe; 13. a discharge pipe; 14. a discharge port; 2. a feed hopper; 21. a handle; 3. a support plate; 31. fixing grooves; 4. a sieve plate; 41. a drive assembly; 411. a cam; 412. a drive motor; 413. a return spring; 5. a limiting block; 6. a filter plate; 61. a vibration motor; 7. a collection box; 71. a material guide pipe; 8. a first guide block; 81. and a second guide block.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses energy-saving construction equipment for green buildings.

Referring to fig. 1 and 2, the green building energy-saving construction equipment comprises a screening box 1, wherein a discharge pipe 13 is communicated with one side of the screening box 1, a feed port 11 is formed in the upper end of the screening box 1, a feed pipe 12 is arranged at the feed port 11 of the screening box 1, a feed hopper 2 is fixedly connected above the feed pipe 12, the lower end of the feed pipe 12 is abutted against the screening box 1, and the feed pipe 12 is communicated with the screening box 1 and the feed hopper 2; a supporting plate 3 for supporting the feed hopper 2 is arranged above the screening box 1, a screening plate 4 is connected to the middle of the feed pipe 12 in a sliding manner, and a driving assembly 41 for driving the screening plate 4 to move in the horizontal direction is arranged on one side of the screening plate 4; the screening box 1 is internally and obliquely provided with the filter plate 6, a vibration motor 61 for driving the filter plate 6 to vibrate is arranged below the filter plate 6, and the vibration motor 61 is fixedly connected with the inner wall of the screening box 1; one side of the screening box 1 is communicated with a collecting box 7 used for collecting coarse materials above the filtering plate 6.

Referring to fig. 1, the end of the feeding hopper 2 facing away from the feeding pipe 12 is flared, and the flared shape has a guiding effect on the concrete particles entering the feeding hopper 2, so that the possibility of the concrete particles leaving the feeding hopper 2 is effectively reduced.

Referring to fig. 3, four handles 21 are fixedly connected to the outer wall of the feeding hopper 2, and the four handles 21 are uniformly arranged at four ends of the feeding hopper 2; two support plates 3 are arranged, the support plates 3 are vertically arranged, the two support plates 3 are positioned on two symmetrical side walls of the feed hopper 2, and the support plates 3 are fixedly connected with the upper surface of the screening box 1; two symmetrical side walls of the feed hopper 2 are fixedly connected with limiting blocks 5, and the limiting blocks 5 are vertically arranged; the ascending fixed slot 31 of opening is seted up to backup pad 3 upper end, and stopper 5 can reciprocate and insert in fixed slot 31 along with feeder hopper 2, has realized the dismantled connection between feeder hopper 2 and the backup pad 3, has improved the stability of connecting between feeder hopper 2 and the backup pad 3.

Referring to fig. 2 and 3, the driving assembly 41 is located between the two support plates 3, the driving assembly 41 includes a cam 411, a driving motor 412 and a return spring 413, the driving motor 412 is fixedly connected with one side of one of the support plates 3 close to each other, an output rod of the driving motor 412 penetrates through the cam 411 and is coaxially and fixedly connected with the cam 411, and the cam 411 is always abutted against one side of the screen plate 4; reset spring 413 is located the one side that feed pipe 12 deviates from cam 411, and reset spring 413 is located between sieve 4 and backup pad 3, and reset spring 413 one end and sieve 4 fixed connection, and the remaining one end of reset spring 413 and backup pad 3 butt, and reset spring 413 is provided with a plurality ofly in this application embodiment.

Referring to fig. 2, the side of the screening box 1 facing away from the discharge pipe 13 is provided with a discharge port 14, and the collection box 7 is located on the side of the screening box 1 facing away from the discharge pipe 13; the outer wall of the filter plate 6 is fixedly connected with the inner wall of the screening box 1, the bottom end of the filter plate 6 penetrates through the discharge hole 14 to extend into the collecting box 7, and one side of the collecting box 7 departing from the screening box 1 is communicated with a material guide pipe 71.

Referring to fig. 2, a first guide block 8 is arranged in the sieving box 1, the top surface of the first guide block 8 close to the discharge pipe 13 is an inclined surface, and the sectional area of the first guide block 8 gradually increases from one end close to the discharge pipe 13 to one end far away from the discharge pipe 13; a second guide block 81 is arranged in the collecting box 7, the top surface of the second guide block 81 close to the material guiding pipe 71 is an inclined surface, and the sectional area of the second guide block 81 is gradually increased from one end close to the material guiding pipe 71 to one end far away from the material guiding pipe 71; the first guide block 8 has a guiding function for concrete particles to leave the screening box 1, and the second guide block 81 has a guiding function for concrete particles to leave the collecting box 7.

The implementation principle of the energy-saving construction equipment for the green building in the embodiment of the application is as follows: concrete particles are added into the feed hopper 2, and the driving component 41 drives the sieve plate 4 to slide along the horizontal direction so as to realize the effect of primarily screening the concrete, thereby effectively reducing the possibility that the concrete particles are accumulated above the sieve plate 4; make great concrete granule stay in 4 tops of sieve, remove feeder hopper 2 and can realize collecting the purpose of thick concrete aggregate in the feeder hopper 2, filter 6 carries out secondary filter to the concrete granule in screening case 1, make relatively great concrete granule pass through in 6 tops of filter get into collecting box 7, tiny concrete granule leaves screening case 1 through discharging pipe 13, has reached the effect of multi-stage screening concrete aggregate.

The embodiments of the present invention are preferred embodiments of the present application, and the scope of protection of the present application is not limited by the embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a green building energy conservation construction equipment, includes screening case (1), feed inlet (11) have been seted up to screening case (1) top, screening case (1) one side intercommunication has discharging pipe (13), its characterized in that: a feed hopper (2) is arranged above the feed inlet (11), a feed pipe (12) is connected between the feed hopper (2) and the screening box (1), supporting plates (3) for supporting the feed hopper (2) are arranged on two sides of the feed hopper (2), and the bottom ends of the supporting plates (3) are fixedly connected with the upper surface of the screening box (1); the feeding pipe (12) is connected with a sieve plate (4) in a sliding way; a filter plate (6) is arranged in the screening box (1), a discharge hole (14) is formed in one side of the screening box (1), a collecting box (7) is communicated with the discharge hole (14), and a material guide pipe (71) is communicated with one side of the collecting box (7); the filter plate (6) is obliquely arranged, and the bottom end of the filter plate (6) extends into the discharge hole (14); and the size of the filter holes of the sieve plate (4) is larger than that of the filter holes of the filter plate (6).

2. The green building energy-saving construction equipment according to claim 1, characterized in that: a driving assembly (41) for driving the sieve plate (4) to move is arranged between the two supporting plates (3); the driving assembly (41) comprises a cam (411), a driving motor (412) for driving the cam (411) to rotate and a return spring (413); the cam (411) is always abutted with one end of the sieve plate (4); reset spring (413) are located inlet pipe (12) and deviate from one side of cam (411), reset spring (413) are located between sieve (4) and backup pad (3), reset spring (413) one end and sieve (4) fixed connection.

3. The green building energy-saving construction equipment according to claim 2, characterized in that: the return spring (413) is provided in plurality.

4. The green building energy-saving construction equipment according to claim 1, characterized in that: limiting blocks (5) are arranged between the feed hopper (2) and the supporting plate (3), two limiting blocks (5) are arranged, the two limiting blocks (5) are positioned on two symmetrical side walls of the feed hopper (2), and the upper ends of the limiting blocks (5) are fixedly connected with the side walls of the feed hopper (2); the upper end of the supporting plate (3) is provided with a fixing groove (31) with an upward opening, and the bottom end of the limiting block (5) is inserted into the fixing groove (31).

5. The green building energy-saving construction equipment according to claim 1, characterized in that: and a vibration motor (61) for driving the filter plate (6) to vibrate is arranged below the filter plate (6).

6. The green building energy-saving construction equipment according to claim 1, characterized in that: feeder hopper (2) outer wall fixedly connected with handle (21), handle (21) are provided with a plurality ofly, and are a plurality of handle (21) are just to setting up.

7. The green building energy-saving construction equipment according to claim 1, characterized in that: be provided with first guide block (8) in screening case (1), first guide block (8) top surface is the inclined plane, and inclined plane bottom sets up towards discharging pipe (13).

8. The energy-saving construction equipment for green buildings according to claim 7, characterized in that: the material guide pipe (71) is positioned on one side of the collecting box (7) departing from the screening box (1); the collecting box (7) is internally provided with a second guide block (81), the top surface of the second guide block (81) is an inclined surface, and the bottom end of the inclined surface faces the material guide pipe (71).

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