CN116674051A - Tunnel concrete vibrating equipment - Google Patents

Abstract

The application relates to the field of concrete processing, and in particular discloses tunnel concrete vibrating equipment, which comprises the following components: a base; the vibrating box assembly is connected with the base; the secondary vibrating device is connected with the vibrating box assembly; the first cleaning device is connected with the vibrating box assembly; the second cleaning device is connected with the vibrating box assembly; the blanking device is connected with the vibrating box assembly; wherein, the second-stage vibrating device includes: the inner box device is connected with the vibrating box assembly; the vertical vibrating device is connected with the inner box device, the device can realize the transverse and vertical dual vibration of concrete through the cooperation of the vibrating box component and the vertical vibrating device, the vibrating effect of the concrete is further improved, and meanwhile, the first cleaning device is matched with the second cleaning device to perform self-cleaning treatment on the internal concrete, so that the concrete is prevented from remaining inside.

Description

Tunnel concrete vibrating equipment

Technical Field

The application relates to the concrete processing industry, in particular to tunnel concrete vibrating equipment.

Background

Concrete is one of the most prominent civil engineering materials in the current generation. The artificial stone is prepared from cementing material, granular aggregate, water, and additive and admixture added if necessary according to a certain proportion, and is prepared by uniformly stirring, compacting, shaping, curing and hardening.

In tunnel engineering, concrete needs to be vibrated, wherein vibration refers to a process of vibrating and tamping concrete mixture discharged into a pouring bin, concrete vibration is one of important projects in concrete construction, after concrete is vibrated by concrete vibrating equipment in the existing tunnel engineering construction, more concrete remains in the concrete vibrating equipment, and the subsequent vibrating quality of the vibrating equipment is affected, so that development of the tunnel concrete vibrating equipment is needed to solve the problem.

Disclosure of Invention

The application aims to provide tunnel concrete vibrating equipment so as to solve the problems in the background technology.

In order to achieve the above purpose, the present application provides the following technical solutions:

a tunnel concrete vibrating apparatus comprising:

a base;

the vibrating box assembly is connected with the base and used for transversely vibrating the concrete;

the secondary vibrating device is connected with the vibrating box assembly;

the first cleaning device is connected with the vibrating box assembly and used for cleaning the interior of the vibrating box assembly;

the second cleaning device is connected with the vibrating box assembly and is used for cleaning the secondary vibrating device;

the discharging device is connected with the vibrating box assembly and is used for directional guiding-out driving of concrete;

wherein, the second-stage vibrating device includes:

the inner box device is connected with the vibrating box assembly;

the longitudinal vibrating device is connected with the inner box device and is used for longitudinally vibrating the concrete.

Compared with the prior art, the application has the beneficial effects that: this device reasonable in design through vibrating case subassembly and vertical vibrating device cooperation, can realize the horizontal vertical dual vibration of concrete, has further improved the effect of vibrating of concrete, simultaneously, first cleaning device cooperates with the second cleaning device, carries out self-cleaning to inside concrete, prevents that the concrete from remaining inside, has improved the not enough of current vibrating device, has higher practicality and market prospect.

Drawings

Fig. 1 is a schematic diagram of an internal structure of a tunnel concrete vibrating device according to an embodiment of the present application.

Fig. 2 is a schematic diagram of an external structure of a tunnel concrete vibrating apparatus according to an embodiment of the present application.

Fig. 3 is a plan view of a tunnel concrete vibrating apparatus according to an embodiment of the present application.

Fig. 4 is a schematic structural view of a limiting frame in a tunnel concrete vibrating device according to an embodiment of the present application.

In the figure: the device comprises a 1-base, a 2-vibrating box assembly, a 3-second-stage vibrating device, a 4-inner box device, a 5-longitudinal vibrating device, a 6-first cleaning device, a 7-second cleaning device, an 8-blanking device, a 201-vibrating box, a 202-first inner bin, 203-first driving pieces, 204-feeding hoppers, 205-second driving pieces, 206-first vibrating frames, 401-second inner bins, 402-blocking plates, 403-third driving pieces, 501-fourth driving pieces, 502-second vibrating frames, 503-inclined frames, 504-limiting grooves, 505-through grooves, 601-fifth driving pieces, 602-first cleaning plates, 701-limiting frames, 702-sixth driving pieces, 703-second cleaning plates, 801-seventh driving pieces and 802-pushing plates.

Detailed Description

The following description of the embodiments of the present application will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present application, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

In one embodiment of the present application, as shown in fig. 1 to 3, a tunnel concrete vibrating apparatus includes: a base 1; the vibrating box assembly 2 is connected with the base 1 and is used for transversely vibrating concrete; the secondary vibrating device 3 is connected with the vibrating box assembly 2; a first cleaning device 6, wherein the first cleaning device 6 is connected with the vibrating box assembly 2 and is used for cleaning the inside of the vibrating box assembly 2; a second cleaning device 7, wherein the second cleaning device 7 is connected with the vibrating box assembly 2 and is used for cleaning the secondary vibrating device 3; the blanking device 8 is connected with the vibrating box assembly 2 and is used for directional guiding-out driving of concrete; wherein, the second-stage vibrating device 3 comprises: an inner tank device 4, wherein the inner tank device 4 is connected with the vibrating tank assembly 2; and the longitudinal vibrating device 5 is connected with the inner box device 4 and is used for longitudinally vibrating the concrete.

In one embodiment of the application:

as shown in fig. 1 to 3, the vibrating box assembly 2 includes: a vibrating box 201, wherein the vibrating box 201 is connected with the base 1; a first inner bin 202, wherein the first inner bin 202 is connected with the vibrating box 201; a feed hopper 204, wherein the feed hopper 204 is connected with the vibrating box 201 and is communicated with the first inner bin 202; at least two first driving pieces 203, wherein the first driving pieces 203 are connected with the top of the vibrating box 201 and are connected with the feed hopper 204 in a penetrating way; the first driving piece 203 is an electric telescopic plate frame; at least two second driving members 205, wherein the second driving members 205 are connected with the inside of the first inner bin 202; the second driving member 205 is an electric telescopic rod; a first vibrating frame 206, wherein the first vibrating frame 206 is connected with the second driving piece 205 and is in sliding abutting connection with the first inner bin 202;

the concrete to be vibrated is guided into the feed hopper 204 in a directional manner, the first driving piece 203 horizontally adjusts in opposite directions or back directions, so that the blanking control of the feed hopper 204 can be realized, and after the concrete is guided into the first inner bin 202, the second driving pieces 205 on two sides can drive the first vibrating frame 206 to move in opposite directions to perform horizontal reciprocating vibration on the concrete in the first inner bin 202;

in the present application, the first driving member 203 is not limited to an electric telescopic rack, but may be a linear motor, an electric cylinder or a cylinder driving device, so long as the material guiding control of the feeding hopper 204 can be implemented, which is not specifically limited herein; the second driving member 205 is not limited to an electric telescopic rod, and may be a linear motor, an electric cylinder, or a cylinder driving, etc., as long as the horizontal reciprocation adjustment of the first vibrating frame 206 can be achieved, and is not particularly limited herein.

In one embodiment of the application:

as shown in fig. 1 to 3, the inner box device 4 includes: a second inner bin 401, the second inner bin 401 being in communication with the first inner bin 202; at least two blocking plates 402, wherein the blocking plates 402 are movably connected with the second inner bin 401 and the vibrating box 201 in a penetrating way; a third driving member 404, wherein one end of the third driving member 404 is connected with the vibrating box 201, and the other end is fixedly connected with the blocking plate 402; the third driving member 404 is an electric telescopic rod;

when the concrete horizontally vibrates in the first inner bin 202, the blocking plates 402 are completely inserted into the upper side and the lower side of the second inner bin 401, the first inner bin 202 is not communicated with the second inner bin 401, the bottom side of the second inner bin 401 is also in a closed arrangement, when the horizontal vibration is finished, the third driving piece 404 operates to drive the blocking plates 402 to move towards the outside of the second inner bin 401, the concrete in the first inner bin 202 is led into the second inner bin 401, and after the concrete is led out, the blocking plates 402 on two sides are inserted into the second inner bin 401 for resetting;

in the present application, the third driving member 404 is not limited to an electric telescopic rod, but may be a linear motor, an electric cylinder, or a pneumatic cylinder, etc., so long as the movement adjustment of the blocking plate 402 can be achieved, and is not specifically limited herein.

In one embodiment of the application:

as shown in fig. 1 to 3, the longitudinal vibrating device 5 includes: a plurality of fourth driving elements 501, wherein the fourth driving elements 501 are connected with the second inner bin 401; the fourth driving member 501 is an electric telescopic rod; the second vibrating frame 502 is connected with a plurality of fourth driving pieces 501; a bevel frame 503, wherein the bevel frame 503 is connected with the vibrating box 201; a limit groove 504, wherein the limit groove 503 is arranged inside the inclined plane frame 503; a through slot 505, said through slot 505 being disposed inside the second inner bin 401;

the concrete guided out from the first inner bin 202 is guided to fall onto a second vibrating frame 502, the width of the second vibrating frame 502 is smaller than that of the second inner bin 401, the tail end of the second vibrating frame 502 is in sliding abutting connection with the second inner bin 401, a gap exists between the front end of the second vibrating frame 502 and the second inner bin 401, the second vibrating frame 502 is driven to longitudinally reciprocate by a plurality of fourth driving pieces 501, longitudinal vibrating of the concrete in the second inner bin 401 is achieved, and part of the concrete can be guided to fall onto the bottom side blocking plate 402 through the gap between the second vibrating frame 502 and the second inner bin 401;

in the present application, the fourth driving member 501 is not limited to an electric telescopic rod, and a linear motor, an electric cylinder, or a cylinder driving may be used, so long as the reciprocating adjustment of the second vibrating frame 502 can be achieved, which is not particularly limited herein.

In one embodiment of the application:

as shown in fig. 1 to 4, the first cleaning device 6 includes: a fifth driving member 601, wherein the fifth driving member 601 is connected with the vibrating box 201; the fifth driving member 601 is an electric telescopic rod; the first cleaning plate 602, wherein the first cleaning plate 601 is connected with the fifth driving device 601 and is connected with the through groove 505 in a penetrating way;

the first cleaning plate 602 is located outside the vibrating box 201, after the concrete is vibrated by the second vibrating frame 502, the top side of the second inner bin 401 is cleaned by the second cleaning device 7, the concrete on the top side of the second inner bin 401 is guided to fall onto the second vibrating frame 502, then the third driving piece 403 drives the upper end blocking plate 402 and the lower end blocking plate 402 to move towards the outer side of the second inner bin 401, the fifth driving piece 601 operates, drives the first cleaning plate 602 to pass through the groove 505 and move towards the inner side of the second inner bin 401, slides and abuts along the tail of the second vibrating frame 502 towards the front, and the concrete on the second vibrating frame 502 is guided to the inclined frame 503 through the gap between the second vibrating frame 502 and the front end of the second inner bin 401;

in the present application, the fifth driving member 601 is not limited to an electric telescopic rod, but a linear motor, an electric cylinder, or a cylinder driving, etc. may be used as long as the movement driving of the first cleaning plate 602 can be achieved, and is not particularly limited herein.

In one embodiment of the application:

as shown in fig. 1 to 4, the second cleaning device 7 includes: the limiting frame 701, wherein the limiting frame 701 is connected with the vibrating box 201; a sixth driving member 702, the sixth driving member 702 being connected to the vibrating box 201; the sixth driving member 702 is an electric telescopic rod; the second cleaning plate 703, wherein the second cleaning plate 703 is movably connected with the vibrating box 201 and the second inner bin 401 in a penetrating way and is connected with the sixth driving piece 702;

when the concrete is vibrated by the second vibrating frame 502, the sixth driving piece 702 drives the second cleaning plates 703 at two sides to move oppositely along the limiting frame 701, and the second cleaning plates 703 at two sides scrape the concrete collected on the top side of the second inner bin 401 onto the second vibrating frame 502;

in the present application, the sixth driving member 702 is not limited to an electric telescopic rod, but a linear motor, an electric cylinder, or a cylinder driving, etc. may be used as long as the movable driving member of the second cleaning plate 703 can be realized, and is not particularly limited herein.

In one embodiment of the application:

as shown in fig. 1 to 3, the blanking device 8 includes: a seventh driving element 801, wherein the seventh driving element 801 is connected with the vibrating box 201; the seventh driving member 801 is an electric telescopic rod; the push plate 802, the push plate 802 is in limited sliding connection with the inclined plane frame 503, and is connected with the seventh driving element 801;

when the concrete is guided to the inclined plane frame 503, a discharge hole (not shown in the figure) is arranged at one side of the vibration box 201 far away from the seventh driving member 801, and the push plate 802 is driven to slide along the limit groove 504 under the driving of the seventh driving member 801, so that the concrete collected on the inclined plane frame 503 is guided to the outside of the vibration box 201 through the discharge hole for concentrated collection;

in the present application, the seventh driving member 801 is not limited to an electric telescopic rod, and a linear motor, an electric cylinder, or a cylinder driving, etc. may be used as long as the driving of the push plate 802 can be performed, and is not particularly limited herein.

The working principle of the application is as follows: the concrete to be vibrated is guided into the feed hopper 204 in a directional manner, the first driving piece 203 is horizontally adjusted in opposite directions or in opposite directions, so that the blanking control of the feed hopper 204 can be realized, after the concrete is guided into the first inner bin 202, the second driving pieces 205 on two sides can drive the first vibrating frame 206 to reciprocate in opposite directions, the concrete in the first inner bin 202 is horizontally vibrated in a reciprocating manner, the first driving piece 203 is not limited to an electric telescopic frame, a linear motor, an electric cylinder or a cylinder driving device can be adopted, and the like, so long as the material guiding control of the feed hopper 204 can be realized, and the concrete is not limited in this regard; the second driving member 205 is not limited to an electric telescopic rod, and may be a linear motor, an electric cylinder or a pneumatic cylinder, etc., so long as the horizontal reciprocating adjustment of the first vibrating frame 206 can be achieved, and the second driving member 205 is not particularly limited herein, the blocking plate 402 is completely inserted into the upper and lower sides of the second inner chamber 401 when the concrete is horizontally vibrated in the first inner chamber 202, the first inner chamber 202 is not communicated with the second inner chamber 401, the bottom side of the second inner chamber 401 is also in a closed arrangement, after the horizontal vibration is completed, the third driving member 404 operates to drive the blocking plate 402 to move outside the second inner chamber 401, the concrete in the first inner chamber 202 is introduced into the second inner chamber 401, and after the concrete is led out, the blocking plates 402 on both sides are inserted into and reset, the third driving member 404 is not limited to an electric telescopic rod, and may also be a linear motor, an electric cylinder or a pneumatic cylinder driving member, etc., as long as the movement adjustment of the blocking plate 402 can be realized, the concrete led out from the first inner bin 202 is led to the second vibration frame 502, the width of the second vibration frame 502 is smaller than that of the second inner bin 401, the tail end of the second vibration frame 502 is in sliding contact with the second inner bin 401, a gap exists between the front end of the second vibration frame 502 and the second inner bin 401, the second vibration frame 502 is driven by a plurality of fourth driving pieces 501 to longitudinally reciprocate, the longitudinal vibration of the concrete in the second inner bin 401 is realized, part of the concrete can be led to the bottom blocking plate 402 through the gap between the second vibration frame 502 and the second inner bin 401, the fourth driving pieces 501 are not limited to an electric telescopic rod device, a linear motor, an electric cylinder or a cylinder driving device can be adopted, and the like, as long as the reciprocating movement adjustment of the second vibration frame 502 can be realized, the specific limitation is not specifically set forth herein;

the first cleaning plate 602 is located outside the vibrating box 201, after the concrete is vibrated by the second vibrating frame 502, the top side of the second inner bin 401 is cleaned by the second cleaning device 7, the concrete on the top side of the second inner bin 401 is guided to fall onto the second vibrating frame 502, then the third driving piece 403 drives the upper end blocking plate 402 and the lower end blocking plate 402 to move towards the outer side of the second inner bin 401, the fifth driving piece 601 operates, drives the first cleaning plate 602 to move towards the inner side of the second inner bin 401 through the through groove 505, slides and abuts along the tail of the second vibrating frame 502 towards the front, the concrete on the second vibrating frame 502 is guided to the front end of the second inner bin 401 by the second vibrating frame 502, the fifth driving piece 601 is not limited to an electric telescopic rod device, a linear motor, an electric cylinder or a cylinder driving device can be adopted as long as the movement driving of the first cleaning plate 602 can be realized, the sixth driving member 702 drives the second cleaning plates 703 at two sides to move along the limiting frame 701 in opposite directions when the concrete is vibrated by the second vibrating frame 502, the second cleaning plates 703 at two sides scrape the concrete collected on the top side of the second inner bin 401 onto the second vibrating frame 502, the sixth driving member 702 is not limited to an electric telescopic rod device, a linear motor, an electric cylinder or an air cylinder driving device or the like can be adopted, so long as the movable driving member of the second cleaning plates 703 can be realized, the concrete is not limited in particular, when the concrete is guided onto the inclined frame 503, a discharge port (not shown in the figure) is arranged at one side of the vibrating box 201 far from the seventh driving member 801, the push plate 802 is driven to slide along the limiting groove 504 under the driving of the seventh driving member 801, the concrete collected on the inclined frame 503 is guided out of the vibrating box 201 through the discharge port, the seventh driving member 801 is not limited to an electric telescopic rod, and may be a linear motor, an electric cylinder, or a cylinder driving, etc., as long as the movement driving of the push plate 802 can be achieved, and is not particularly limited herein.

In conclusion, through vibrating case subassembly 2 and the cooperation of vertical vibrating device 5, can realize the horizontal vertical dual vibration of concrete, further improved the vibration effect of concrete, simultaneously, first cleaning device 6 cooperates with second cleaning device 7, carries out self-cleaning to inside concrete, prevents that the concrete from remaining inside.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (7)

1. A tunnel concrete vibrating apparatus, comprising:

a base;

the vibrating box assembly is connected with the base and used for transversely vibrating the concrete;

the secondary vibrating device is connected with the vibrating box assembly;

the first cleaning device is connected with the vibrating box assembly and used for cleaning the interior of the vibrating box assembly;

the second cleaning device is connected with the vibrating box assembly and is used for cleaning the secondary vibrating device;

the discharging device is connected with the vibrating box assembly and is used for directional guiding-out driving of concrete;

wherein, the second-stage vibrating device includes:

the inner box device is connected with the vibrating box assembly;

the longitudinal vibrating device is connected with the inner box device and is used for longitudinally vibrating the concrete.

2. The tunnel concrete vibrating apparatus of claim 1, wherein the vibrating box assembly includes:

the vibrating box is connected with the base;

the first inner bin is connected with the vibrating box;

the feeding hopper is connected with the vibrating box and is communicated with the first inner bin;

the first driving parts are connected with the top of the vibrating box and are connected with the feed hopper in a penetrating way; the first driving piece is an electric telescopic plate frame;

the second driving parts are connected with the inside of the first inner bin;

the first vibrating frame is connected with the second driving piece and is in sliding butt with the first inner bin.

3. The tunnel concrete vibrating apparatus according to claim 2, wherein the inner box means includes:

the second inner bin is communicated with the first inner bin;

the blocking plates are connected with the second inner bin and the vibrating box in a penetrating and movable mode;

and one end of the third driving piece is connected with the vibrating box, and the other end of the third driving piece is fixedly connected with the blocking plate.

4. A tunnel concrete vibrating apparatus according to claim 3, wherein the longitudinal vibrating means comprises:

the fourth driving parts are connected with the second inner bin;

the second vibrating frame is connected with a plurality of fourth driving parts;

the inclined plane frame is connected with the vibrating box;

the limiting groove is arranged in the inclined plane frame;

the through groove is arranged in the second inner bin.

5. The tunnel concrete vibrating apparatus of claim 4, wherein the first cleaning means includes:

the fifth driving piece is connected with the vibrating box;

the first cleaning plate is connected with the fifth driving device and is connected with the through groove in a penetrating mode.

6. A tunnel concrete vibrating apparatus according to claim 3, wherein the second cleaning means comprises:

the limiting frame is connected with the vibrating box;

the sixth driving piece is connected with the vibrating box;

the second cleaning plate is connected with the vibrating box and the second inner bin in a penetrating and movable mode and is connected with the sixth driving piece.

7. The tunnel concrete vibrating apparatus according to claim 2, wherein the discharging means includes:

the seventh driving piece is connected with the vibrating box;

the push plate is in limit sliding connection with the inclined plane frame and is connected with the seventh driving piece.