CN209124333U - A kind of architectural engineering sandstone screening plant - Google Patents

Abstract

The utility model discloses a kind of architectural engineering sandstone screening plants, including tank body, the side of the tank body is equipped with material transmitting device, the upper end side of the tank body is fixed with the first discharge nozzle, the lower end side of the tank body is fixed with the second discharge nozzle, screening chamber is equipped in the tank body, guard box is respectively and fixedly provided in the intracavitary opposing sidewalls of the screening, cavity is equipped in the guard box, it is jointly fixed in opposing sidewalls in the cavity that there are two the fixed plates being parallel to each other, the equal sliding sleeve in the both ends of the fixed plate is connected to the second sliding bar, two second sliding bars of the same side are one group, one end of same group of two the second sliding bars is fixed with connection frame jointly.The utility model realizes the quick screening of sandstone, has achieved the effect that for material to be uniformly delivered in tank, prevents material input is excessive from reducing screening quality, high degree of automation reduces the labor intensity of worker.

Description

A kind of architectural engineering sandstone screening plant

Technical field

The utility model relates to construction engineering technical field more particularly to a kind of architectural engineering sandstone screening plants.

Background technique

Architectural engineering, refer to by construction to all kinds of building constructions and its affiliated facility and route matched with its, pipeline, The installation activity of equipment is formed by engineering entity, wherein " building construction ", which refers to, top cover, beam column, wall, basis and can Inner space is formed, meets people's production, live, the engineering that study, public activity need, also refer to various houses, building Engineering is built, needs to configure the concrete of different requirements in architectural process using sand.

Present architectural engineering sandstone screening is all manually to screen, and screening quality is lower, and breakneck acceleration is slower, Wu Faman The a large amount of of sufficient architectural engineering use sand, and the physical strength of staff is limited, can not be always maintained at high-intensitive working condition, reduce The efficiency of sandstone screening, for this purpose, we have proposed a kind of architectural engineerings to be solved the above problems with sandstone screening plant.

Utility model content

Purpose of the utility model is to solve disadvantages existing in the prior art, and a kind of architectural engineering proposed is used Sandstone screening plant.

To achieve the goals above, the utility model adopts the technical scheme that

The side of a kind of architectural engineering sandstone screening plant, including tank body, the tank body is equipped with material transmitting device, institute The upper end side for stating tank body is fixed with the first discharge nozzle, and the lower end side of the tank body is fixed with the second discharge nozzle, the tank body It is interior to be equipped with screening chamber, it is respectively and fixedly provided with guard box in the intracavitary opposing sidewalls of the screening, cavity is equipped in the guard box, it is described Jointly fixed there are two the fixed plate being parallel to each other in opposing sidewalls in cavity, the equal sliding sleeve in the both ends of the fixed plate is connected to Second sliding bar, two second sliding bars of the same side are one group, and one end of same group of two the second sliding bars is fixed jointly There is connection frame, second spring is arranged on second sliding bar, one end of the second spring is fixed in fixed plate, described The other end of second spring is fixed on connection frame, and the equal sliding sleeve of the upper and lower ends of the connection frame is connected to the first sliding bar, and four One end of a first sliding bar is fixed with protecting box jointly, and third driving motor, the third driving are equipped in the protecting box The output shaft end of dynamic motor is through protecting box and extends outside interior protecting box, and the third drives the output shaft end of dynamic motor solid Surely there is arcuate rotation block, the lower end of the protecting box is fixed with connecting rod, and the bottom in the cavity is equipped with opening, the connection Through the lower end for being open and extending to guard box, one end of the connecting rod is fixed with sieve plate for one end of bar, and the screening is intracavitary Opposing sidewalls on slidably connect cutting ferrule, the both ends of the sieve plate are slidably socketed on cutting ferrule, the intracavitary bottom of the screening Portion is equipped with transmission device.

Preferably, the material transmitting device includes the conveying bar being arranged on tank body, is equipped with spiral shell in the conveying bar Conveying bar is revolved, the upper end of the conveying bar is fixed with the first driving motor, and the output shaft end of first driving motor runs through Conveying bar simultaneously extends in conveying bar, and the output shaft end of first driving motor is fixed on the upper end of spiral conveying bar, institute The side for stating conveying bar is fixed with the second feed pipe, and the other side of the conveying bar is fixed with the first feed pipe, described first into One end of expects pipe is fixed on the upper end of tank body.

Preferably, the transmission device includes the second driving motor that tank body side is arranged in, the intracavitary phase of the screening To common rotation connection on side wall there are two the rotation axis that is parallel to each other, by conveyer belt transmission connection between two rotation axis, The output shaft end of second driving motor is through tank body and extends to intracavitary, the output shaft of second driving motor of screening End is fixed therein one end of a rotation axis.

Preferably, the lower end of the tank body is fixed with support frame.

Preferably, the upper end side of the tank body is fixed with the first discharge nozzle.

Preferably, the lower end side of the tank body is fixed with the second discharge nozzle.

Compared with prior art, the utility model has the beneficial effects that

1, by the cooperation between the first feed pipe, spiral conveying bar, the first driving motor and the second feed pipe, make first Driving motor drives spiral conveying bar that the material in the first feed pipe is delivered to the second feed pipe, solves asking for material conveying Topic, has achieved the effect that for material to be uniformly delivered in tank, prevents material input is excessive from reducing screening quality；

2, pass through the cooperation between third driving motor, rotating block, the first spring, second spring and sieve plate, third driving Motor drives rotating block rotation, moves the first spring and second spring using the quality and centrifugal force of rotating block, shakes sieve plate It is dynamic to be screened, it solves the problems, such as material screening, has achieved the effect that rapidly and efficiently to screen, facilitated and screen out impurity, reduce The labor intensity of worker；

In conclusion the present apparatus realizes the quick screening of sandstone, achieve the effect that for material to be uniformly delivered in tank, Prevent material input is excessive from reducing screening quality, high degree of automation reduces the labor intensity of worker.

Detailed description of the invention

Fig. 1 be the utility model proposes a kind of architectural engineering sandstone screening plant external structure schematic diagram；

Fig. 2 be the utility model proposes a kind of architectural engineering sandstone screening plant schematic diagram of internal structure；

Fig. 3 be the utility model proposes a kind of architectural engineering sandstone screening plant guard box internal structure signal Figure.

In figure: 1 first driving motor, 2 first feed pipes, 3 conveying bars, 4 second driving motors, 5 second feed pipes, 6 Support, 7 tank bodies, 8 first discharge nozzles, 9 second discharge nozzles, 10 spiral conveying bars, 11 guard boxs, 12 connecting rods, 13 sieve plates, 14 pass Send band, 15 rotation axis, 16 first springs, 17 second springs, 18 protecting box, 19 connection frames, 20 second sliding bars, 21 fixed plates, 22 arcuate rotation blocks, 23 first sliding bars.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.

Referring to Fig.1-3, the side of a kind of architectural engineering sandstone screening plant, including tank body 7, tank body 7 is passed equipped with material Defeated device, the lower end of tank body 7 are fixed with support frame 6, stablize support, screening chamber is equipped in tank body 7, screens intracavitary opposing sidewalls On be respectively and fixedly provided with guard box 11, be equipped with cavity in guard box 11, jointly fixed in the opposing sidewalls in cavity there are two mutually flat Capable fixed plate 21, the equal sliding sleeve in the both ends of fixed plate 21 are connected to the second sliding bar 20, two second sliding bars 20 of the same side It is one group, one end of same group of two the second sliding bars 20 is fixed with connection frame 19 jointly, is arranged on the second sliding bar 20 Material is delivered in tank body 7 by second spring 17, material transmitting device, and guard box 11 shields, 20 He of the second sliding bar Second spring 17 facilitates protecting box 18 to move and reset；

One end of second spring 17 is fixed in fixed plate 21, and the other end of second spring 17 is fixed on connection frame 19, The equal sliding sleeve of the upper and lower ends of connection frame 19 is connected to the first sliding bar 23, and one end of four the first sliding bars 23 is fixed with guarantor jointly Box 18 is protected, third driving motor is equipped in protecting box 18, third drives the output shaft end of dynamic motor through protecting box 18 and prolongs It stretches outside interior protecting box 18, third drives the output shaft end of dynamic motor to be fixed with arcuate rotation block 22, and third driving motor drives Arcuate rotation block 22 rotates, and the centrifugal force generated by rotation drives protecting box 18 to move up and down, and makes the first spring 16 and second spring 17 generate deformation, then the first spring 26 and second spring 27 reset, and shake protecting box 18, are sieve plate 13 Power is provided；

The lower end of protecting box 18 is fixed with connecting rod 12, and the bottom in cavity is equipped with opening, and one end of connecting rod 12 is run through It is open and extends to the lower end of guard box 11, one end of connecting rod 12 is fixed with sieve plate 13, screens in intracavitary opposing sidewalls Cutting ferrule is slidably connected, the both ends of sieve plate 13 are slidably socketed on cutting ferrule, and the upper end side of tank body 7 is fixed with the first discharge nozzle 8, the first discharge nozzle 8 facilitates material impurity to transport to outside tank body 7, and the lower end side of tank body 7 is fixed with the second discharge nozzle 9, and second Outside the sand transport that discharge nozzle 9 facilitates screening to finish to tank body 7, intracavitary bottom is screened equipped with transmission device, protecting box 18 shakes It drives connecting rod 12 to shake, then sieve plate 13 is driven to move left and right in cutting ferrule, while sieve plate 13 drives sliding sleeve to slide up and down, it is right Material is screened, and sand is fallen on conveyer belt 14 by sieve plate, and sieve plate 13 drives impurity to be delivered to by the first discharge nozzle Outside tank body 7.

In the utility model, material transmitting device includes the conveying bar 3 being arranged on tank body 7, is equipped with spiral shell in conveying bar 3 Conveying bar 10 is revolved, the upper end of conveying bar 3 is fixed with the first driving motor 1, and the output shaft end of the first driving motor 1 runs through conveying Bar 3 simultaneously extends in conveying bar 3, and the output shaft end of the first driving motor 1 is fixed on the upper end of spiral conveying bar 10, conveying bar 3 side is fixed with the second feed pipe 5, and the other side of conveying bar 3 is fixed with the first feed pipe 2, and one end of the first feed pipe 2 is solid It is scheduled on the upper end of tank body 7, material enters in conveying bar 3 from the second feed pipe 5, and the first driving motor 1 drives spiral conveying bar 10 Rotation, it is intracavitary subsequently into screening by material transmission to the first feed pipe 2, facilitate and be uniformly delivered to material in tank, prevents Material input is excessive to reduce screening quality.

In the utility model, transmission device includes the second driving motor 4 that 7 side of tank body is arranged in, and screens intracavitary phase To common rotation connection on side wall there are two the rotation axis 15 that is parallel to each other, it is driven between two rotation axis 15 by conveyer belt 14 The output shaft end of connection, the second driving motor 4 through tank body 7 and extends to intracavitary, the output shaft of the second driving motor 4 of screening End is fixed therein one end of a rotation axis 15, and the second driving motor 22 drives one of rotation axis 15 to rotate, then It drives conveyer belt 14 that garbled sand is sent in the second discharge nozzle 9, tank body 7 is then delivered to by the second discharge nozzle 9 Outside, the sand for finishing screening is facilitated to be delivered to outside tank body 7.

In the utility model, in use, material enters in conveying bar 3 from the second feed pipe 5, the first driving motor 1 is driven Spiral conveying bar 10 rotates, and by material transmission to the first feed pipe 2, intracavitary subsequently into screening, third driving motor is driven Arcuate rotation block 22 rotates, and the centrifugal force generated by rotation drives protecting box 18 to move up and down, and makes the first spring 16 and second spring 17 generate deformation, then the first spring 26 and second spring 27 reset, and shake protecting box 18, then drive Sieve plate 13 moves left and right in cutting ferrule, while sieve plate 13 drives sliding sleeve to slide up and down, and screens to material, sand passes through sieve plate It falls on conveyer belt 14, sieve plate 13 drives impurity to be delivered to outside tank body 7 by the first discharge nozzle, and the second driving motor 22 drives One of rotation axis 15 rotates, and then drives conveyer belt 14 that garbled sand is sent in the second discharge nozzle 9, then leads to The second discharge nozzle 9 is crossed to be delivered to outside tank body 7.

The preferable specific embodiment of the above, only the utility model, but the protection scope of the utility model is not It is confined to this, anyone skilled in the art is within the technical scope disclosed by the utility model, practical according to this Novel technical solution and its utility model design are subject to equivalent substitution or change, should all cover the protection model in the utility model Within enclosing.

Claims (6)

1. a kind of architectural engineering sandstone screening plant, including tank body (7), it is characterised in that: the side of the tank body (7) is equipped with The upper end side of material transmitting device, the tank body (7) is fixed with the first discharge nozzle (8), and the lower end side of the tank body (7) is solid Surely have the second discharge nozzle (9), screening chamber is equipped in the tank body (7), is respectively and fixedly provided with guarantor in the intracavitary opposing sidewalls of the screening Protecting box (11), the guard box (11) is interior to be equipped with cavity, fixes in the opposing sidewalls in the cavity and puts down there are two mutual jointly The equal sliding sleeve in both ends of capable fixed plate (21), the fixed plate (21) is connected to the second sliding bar (20), and two of the same side Two sliding bars (20) are one group, and one end of same group of two the second sliding bars (20) is fixed with connection frame (19) jointly, described It being arranged on second sliding bar (20) second spring (17), one end of the second spring (17) is fixed on fixed plate (21), The other end of the second spring (17) is fixed on connection frame (19), and the upper and lower ends of the connection frame (19) are slidably socketed Have the first sliding bar (23), one end of four the first sliding bars (23) is fixed with protecting box (18) jointly, the protecting box (18) Interior to be equipped with third driving motor, the output shaft end of the third driving motor through protecting box (18) and extends to protecting box (18) outside, the output shaft end of the third driving motor is fixed with arcuate rotation block (22), the lower end of the protecting box (18) It is fixed with connecting rod (12), the bottom in the cavity is equipped with opening, and one end of the connecting rod (12) through opening and extends To the lower end of guard box (11), one end of the connecting rod (12) is fixed with sieve plate (13), the intracavitary opposing sidewalls of the screening On slidably connect cutting ferrule, the both ends of the sieve plate (13) are slidably socketed on cutting ferrule, and the intracavitary bottom of the screening is equipped with Transmission device.

2. a kind of architectural engineering sandstone screening plant according to claim 1, which is characterized in that the material transferring dress The conveying bar (3) including being arranged on tank body (7) is set, spiral conveying bar (10), the conveying are installed in the conveying bar (3) The upper end of bar (3) is fixed with the first driving motor (1), and the output shaft end of first driving motor (1) runs through conveying bar (3) And extend in conveying bar (3), the output shaft end of first driving motor (1) is fixed on the upper of spiral conveying bar (10) End, the side of the conveying bar (3) are fixed with the second feed pipe (5), and the other side of the conveying bar (3) is fixed with the first charging It manages (2), one end of first feed pipe (2) is fixed on the upper end of tank body (7).

3. a kind of architectural engineering sandstone screening plant according to claim 1, which is characterized in that the transmission device packet It includes setting common rotation on second driving motor (4) of tank body (7) side, the intracavitary opposing sidewalls of the screening and is connected with two A rotation axis (15) being parallel to each other is sequentially connected between two rotation axis (15) by conveyer belt (14), second driving The output shaft end of motor (4), which runs through tank body (7) and extends to, screens intracavitary, the output shaft end of second driving motor (4) End is fixed therein one end of a rotation axis (15).

4. a kind of architectural engineering sandstone screening plant according to claim 1, which is characterized in that the tank body (7) Lower end is fixed with support frame (6).

5. a kind of architectural engineering sandstone screening plant according to claim 1, which is characterized in that the tank body (7) Upper end side is fixed with the first discharge nozzle (8).

6. a kind of architectural engineering sandstone screening plant according to claim 1, which is characterized in that the tank body (7) Lower end side is fixed with the second discharge nozzle (9).