CN218748410U - Mould locking vibration device for concrete member - Google Patents

Abstract

The utility model discloses a mould locking vibration device of a concrete component, which comprises vibration devices symmetrically arranged at two sides of a mould conveying device; the vibration device is also provided with a vibration base and a locking mechanism which are matched, and the vibration device and the locking mechanism are respectively connected with the vibration base; the component mould is placed on the vibration base and can be fixedly connected with the vibration base in an unlocking mode through the locking mechanism. Has the advantages that: the utility model provides uniform vertical upward vibration force for the component mould through the fixed connection of the vibration device and the vibration base, the locking mould does not deviate, the component mould is not separated from the vibration base, and the excitation force is used for effectively compacting the cloth in the mould to the maximum extent, and meanwhile, the abrasion of the component mould and the vibration base can be avoided; the pneumatic jacking device is used for jacking the component die and buffering the vibration force, so that the influence of the vibration force on peripheral equipment facilities is avoided, and the purpose of reducing noise and reducing force is achieved.

Description

Mould locking vibration device for concrete member

Technical Field

The utility model relates to a production facility of concrete member, in particular to mould locking vibrating device of concrete member belongs to concrete equipment technical field.

Background

Concrete members are produced by pouring concrete into respective molds, filling all spaces of the molds with concrete by vibration and removing air, and forming the desired concrete member. When the concrete member with the special-shaped structure is produced, the mould structure is complex, the concrete compaction difficulty is high, air bubbles are difficult to discharge, the surface of the product has many air holes and looseness, and the product quality is high and has different differences.

At present, when concrete special-shaped components are produced, generally, when concrete is poured into a mould, a vibrator is directly installed on a mould side mould plate of the mould or a tamper is inserted into a mould cavity, so that a position where vibration cannot be achieved is inevitable. And some integral vibration devices for producing special-shaped concrete components in the current market directly use a hydraulic oil cylinder clamping device to fasten a mould when the mould is used, the mould vibrates the concrete through a bottom vibrator, the vibration force conducts the exciting force along the mechanism force arm of the clamping device, the mould clamping device and the vibration table top are seriously abraded for a long time, and the service life of the integral vibration device is influenced. Some equipment manufacturers can lay a rubber pad under the hydraulic grapple, and in this way, the vibration force conduction is reduced to influence the concrete compaction effect.

Disclosure of Invention

The purpose of the invention is as follows: the utility model aims to provide a mould locking vibration device of a concrete component aiming at the problems in the prior art; the utility model connects the vibration component and the mould together through the locking component when the concrete is poured in the mould, which is used for compacting concrete of the concrete member mould and solves the problems of compaction of concrete and smooth exhaust which are difficult to solve by the prior vibrator; and meanwhile, the production of special-shaped concrete members with different structures and specifications is compatible.

The technical scheme is as follows: a mould locking vibration device of a concrete member comprises vibration devices symmetrically arranged at two sides of a mould conveying device; the vibration device is also provided with a vibration base and a locking assembly which are matched with each other, and the vibration device and the locking assembly are respectively connected with the vibration base; the component mould is placed on the vibration base and can be fixedly connected with the vibration base in an unlocking mode through the locking assembly.

The utility model discloses a locking Assembly fixes the component mould on vibration base to vibrating device and vibration base fixed connection, because the component mould can not squint on vibration base, vibrating device and vibration base rigidity simultaneously, consequently can be used for the plain bumper of concrete cloth in the component mould with the exciting force to the at utmost, can avoid the wearing and tearing of component mould and vibration base simultaneously. In order to ensure the transmission of the vibration force when the component mold vibrates, the component mold and the vibration device must be fixed as a whole.

Preferably, in order to further improve the tap effect of the concrete distribution, the vibrating devices are fixedly installed at the bottom of the vibrating base, at least two sets of vibrating devices are arranged, and the vibrating devices are symmetrically and uniformly distributed at the bottom of the vibrating base. The vibrating device provides uniform vertical upward vibrating force for the component mould through the vibrating base, and the vibrating effect can be further improved through symmetrically and uniformly distributing two or more sets of vibrating devices; the vibration force is transmitted to the edge of the member mould, and the concrete is compacted to the maximum extent.

Preferably, in order to realize stable and reliable connection between the component die and the vibration base, the locking assembly is a hydraulic locking mechanism and comprises a hydraulic oil cylinder, a locking mechanism and an oil cylinder mounting seat, one end of the hydraulic oil cylinder is connected with the vibration base through the oil cylinder mounting seat, the other end of the hydraulic oil cylinder is connected with the locking mechanism, the locking mechanism is movably connected with the vibration base in a reciprocating motion mode, and the locking mechanism is driven to reciprocate by the stretching of the hydraulic oil cylinder. The locking and unlocking between the component die and the vibration base are realized by the reciprocating motion of the telescopic driving locking mechanism of the hydraulic oil cylinder, and the component die and the vibration base can be stably and reliably connected when being locked because the telescopic driving of the hydraulic oil cylinder needs the driving of high-pressure oil.

Preferably, in order to further realize the stable and reliable connection between the component mold and the vibration base, the locking mechanism comprises a driving part, an installation part and a locking part, the driving part and the locking part are positioned at two ends of the installation part, the locking mechanism is hinged with the vibration base through the installation part, the driving part is hinged with the end part of a piston rod of the hydraulic oil cylinder, and the locking part is connected with the bottom of the component mold in an unlocking manner. The locking mechanism adopts a lever principle to drive the locking and unlocking of the locking part through a piston rod of the hydraulic oil cylinder.

Preferably, in order to further realize stable and reliable connection between the component mold and the vibration base, the locking part is of a hook-shaped structure, and a hook tip is bent towards the component mold; and a mould bottom plate is arranged at the bottom of the component mould, and the inner side of the hook tip is in close contact with the upper surface of the edge of the mould bottom plate during locking.

Preferably, in order to make the whole structure more compact, the driving part is positioned below the vibration base, and the hook-shaped structure of the locking part penetrates through the vibration base and is in close contact with the upper surface of the edge of the bottom plate of the mold.

Preferably, two sets of symmetrically arranged locking assemblies are installed below the vibration base, and hook tips of the locking portions are in close contact with the upper surfaces of the edges of the two sides of the die bottom plate relatively and respectively.

The oil cylinders are symmetrically arranged on the left side and the right side below the vibration base, extend out or retract simultaneously to fasten the bottom plate of the die, and can simultaneously act by being provided with the symmetrically arranged oil cylinders to ensure symmetrical fastening on the structure; the locking assembly guarantees that action consistency is the functional basis of effective work of the equipment, and hydraulic pressure can adjust system pressure simultaneously, can carry out pressure adjustment to different moulds, reaches energy saving and consumption reduction's purpose.

Preferably, in order to further realize stable and reliable connection between the component mold and the vibration base, the locking assembly is positioned on the vibration base and is biased to one side away from the mold conveying device. The locking assemblies are distributed at four corners of the bottom plate of the mold as much as possible, so that the reliability of connection between the component mold and the vibration base can be further improved.

Preferably, in order to avoid the vibration power to conduct on the mould conveyor, the vibration base bottom is equipped with the jacking subassembly, jacking subassembly bottom fixed mounting is in the foundation ditch of mould conveyor both sides, the top and the vibration base of jacking subassembly are connected. The vibration base separates the component die and the vibration device from the die conveying device under the jacking action of the jacking assembly, avoids the influence on the die conveying device caused by the vibration force transmitted to the die conveying device, and can transmit the vibration force to the component die in a concentrated manner.

The preference has reduced the vibration to peripheral equipment in order to effectively reduce the downward conduction of vibrational force, promotes peripheral equipment's reliability, the jacking subassembly includes jacking base, pneumatic lifting device and connecting plate, the jacking subassembly passes through jacking base fixed mounting in the foundation ditch of mould conveyor both sides, the jacking subassembly passes through the connecting plate and the vibration pedestal connection at pneumatic lifting device top, pneumatic lifting device can adjust the horizontal height difference of vibration base upper surface apart from mould conveyor upper surface through inflating the gassing.

The pneumatic lifting device can be an air rubber spring, the requirement on lifting height is met, and the problem of vibration force conduction is solved.

Preferably, in order to improve the maintenance convenience, an equipment base is arranged at the bottom of the vibration base, the equipment base is of a box-type structure, the vibration base is of a cover plate structure, the equipment base is fixedly arranged in foundation pits at two sides of the mold conveying device, and the bottom of the jacking assembly is fixedly arranged in the equipment base; the vibration base moves upwards to be separated from the equipment base when the jacking assembly lifts, and the vibration base and the equipment base form a closed box body when the jacking assembly falls back.

The equipment base wraps the other equipment integrally, is designed in a modular mode, and can be directly and integrally installed. The module is rectangular structure, wraps up all equipment in it, and it is convenient to install, can directly wholly hang into the foundation pit in, only need with electric, compressed air, hydraulic pressure pipeline connection interface, with ground connecting piece locking to carry out size check can.

Whole module outside adopts the steel sheet whole to bend and forms, also regards as the outside protective housing as the whole braced frame of all devices, practices thrift the structure consumptive material and also reduces the size, can satisfy various production operating mode demands, during the maintenance, can dismantle the maintenance by the part and also can wholly hang out, maintains alone, promotes production dimension and guarantees that speed guarantees the production rhythm.

Preferably, in order to reduce the noise of the equipment, the base of the equipment is filled with vibration and noise reduction materials. The inner cavity of the equipment base is coated with vibration and noise reduction materials such as polyurethane foam adhesive and the like, so that vibration and noise of the equipment can be reduced. Meanwhile, the adopted air rubber spring can effectively reduce the downward conduction of the vibration force, reduce the vibration to peripheral equipment and improve the reliability of the peripheral equipment.

The preference, in order to improve degree of automation, reduce site work personnel's intensity of labour, mould conveyor bilateral symmetry is provided with adjusts the device well, adjust the device well and include push rod and push pedal, the push rod drives the push pedal along perpendicular mould conveyor's track extending direction concertina movement, and the push rod that the device was adjusted well to both sides is synchronous with fast flexible, the working face of the push pedal of device well is parallel with mould conveyor's track extending face, the push pedal of device and the side of component mould are face contact well. The aligning devices are symmetrically distributed on two sides of the vibration base and are contacted with the bottom of the die when working; the side surface of the alignment device, which is opposite to the bottom of the die, is in surface contact, and the alignment device is pushed to be aligned and then recovered, so that the alignment guide effect is realized. The working efficiency is improved through the alignment device, and the labor intensity of operators is reduced.

Has the advantages that: the utility model provides even vertical upward vibration force for the component mould through the fixed connection of the vibration device and the vibration base, the locking mould is not deviated, the component mould is not separated from the vibration base, and the excitation force is used for effectively compacting the cloth in the mould to the maximum extent, and meanwhile, the abrasion of the component mould and the vibration base can be avoided; the pneumatic jacking device is used for jacking the component die and buffering the vibration force, so that the influence of the vibration force on peripheral equipment facilities is avoided, and the purpose of reducing noise and reducing force is achieved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the prior art descriptions will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic structural view of the locking state of the locking assembly of the present invention;

fig. 3 is a schematic structural view of the unlocking state of the locking assembly of the present invention;

FIG. 4 is a perspective view of the internal structure of the present invention;

FIG. 5 is a schematic view of the overall appearance of the present invention;

FIG. 6 is a comparison diagram of the jacking state of the present invention;

fig. 7 is a schematic structural view of the jacking assembly of the present invention;

fig. 8 is a schematic view of the installation position of the present invention.

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 work belong to the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

In the present disclosure, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact between the first and second features, or may comprise contact between the first and second features not directly. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

As shown in fig. 1 and 8, a mold locking vibration device for concrete members includes vibration devices 2 symmetrically disposed at both sides of a mold transfer device 1; the vibration device 2 is also provided with a vibration base 3 and a locking assembly 4 which are matched, and the vibration device 2 and the locking assembly 4 are respectively connected with the vibration base 3; the component mold 5 is placed on the vibration base 3, and the component mold 5 is fixedly connected with the vibration base 3 in an unlocking mode through the locking assembly 4.

The utility model discloses a locking Assembly 4 fixes component mould 5 on vibration base to vibrating device 2 and 3 fixed connection of vibration base, because component mould 5 can not squint on vibration base 3, vibrating device 2 and 3 fixed positions of vibration base simultaneously, consequently can be used for the jolt of concrete cloth in component mould 5 with the exciting force to the at utmost, can avoid the wearing and tearing of component mould 5 and vibration base 3 simultaneously. In order to ensure the transmission of the vibration force when the component mold 5 vibrates, it is necessary to ensure that the component mold 5 is integrally fixed with the vibration device.

As shown in fig. 4, in order to further improve the tap effect of the concrete cloth, the vibrating devices 2 are fixedly installed at the bottom of the vibrating base 3, the number of the vibrating devices 2 is two, and the vibrating devices 2 are symmetrically and uniformly distributed at the bottom of the vibrating base 3. The vibration device 2 provides uniform vertical upward vibration force for the component mould 5 through the vibration base 3, and the vibration effect can be further improved through symmetrically and uniformly distributing two or more sets of vibration devices; the vibration force is transmitted to the edge of the member mould, and the concrete is compacted to the maximum extent.

As shown in fig. 2 and 3, in order to realize stable and reliable connection between the component mold 5 and the vibration base 3, the locking assembly 4 is a hydraulic locking mechanism, and includes a hydraulic cylinder 41, a locking mechanism 42 and a cylinder mounting seat 43, one end of the hydraulic cylinder 41 is connected with the vibration base 3 through the cylinder mounting seat 43, the other end of the hydraulic cylinder 41 is connected with the locking mechanism 42, the locking mechanism 42 is movably connected with the vibration base 3 in a reciprocating manner, and the locking mechanism 42 is driven by the extension of the hydraulic cylinder 41 to reciprocate. The locking and unlocking between the component mold 5 and the vibration base 3 are realized by the reciprocating motion of the telescopic driving locking mechanism 42 of the hydraulic oil cylinder 41, and the component mold 5 and the vibration base 3 can be stably and reliably connected when being locked because the telescopic driving of the hydraulic oil cylinder 41 needs the driving of high-pressure oil.

In order to further realize the stable and reliable connection between component mold 5 and vibration base 3, locking mechanism 42 includes drive portion 421, installation department 422 and locking portion 423, drive portion 421 and locking portion 423 are located installation department 422 both ends, locking mechanism 42 is articulated with vibration base 3 through installation department 422, drive portion 421 is articulated with hydraulic cylinder 41's piston rod end, locking portion 423 is connected with component mold 5 bottom unblock formula. The locking mechanism 42 drives the locking portion 423 to be locked and unlocked through a piston rod of the hydraulic oil cylinder 41 by using a lever principle.

As shown in fig. 2, in order to make the entire structure more compact, the locking portion 423 has a hook-shaped structure, and a hook tip is bent toward the component mold 5 side; the bottom of the component mold 5 is provided with a mold bottom plate 51, and the inner side of the hook tip is tightly contacted with the upper surface of the edge of the mold bottom plate 51 when locking.

The driving part 421 is located below the vibration base 3, and the hook structure of the locking part 423 penetrates through the vibration base 3 to be in close contact with the upper surface of the edge of the die base plate 51.

Two sets of symmetrically arranged locking assemblies 4 are installed below the vibration base 3, and hook tips of the locking portions 423 are respectively in close contact with the upper surfaces of two side edges of the die base plate 51 relatively.

Symmetrically arranged at the left side and the right side below the vibration base 3, extending out or retracting back simultaneously to fasten the die bottom plate 51, and symmetrically arranged oil cylinders are configured for ensuring symmetrical fastening on the structure and can act simultaneously; the locking component 4 ensures that the action consistency is the functional basis for the effective work of the equipment, and meanwhile, the hydraulic pressure can adjust the system pressure, so that the pressure can be adjusted for different molds, and the purposes of saving energy and reducing consumption are achieved.

As shown in fig. 4 and 5, in order to further achieve a stable and reliable connection between the component mold 5 and the vibration base 3, the locking assembly 4 is located on the vibration base 3 on the side that is offset from the mold conveying device 1. The distribution of the locking assemblies 4 at the four corners of the mold base 3 further improves the reliability of the connection between the component mold 5 and the vibration base 3.

As shown in fig. 6 and 7, in order to avoid transmitting the vibration force to the mold conveying device 1, the bottom of the vibration base 3 is provided with a jacking component 6, the bottom of the jacking component 6 is fixedly arranged in the foundation pits on two sides of the mold conveying device 1, and the top of the jacking component 6 is connected with the vibration base 3. The vibration base 3 separates the component mould 5 together with the vibration device 2 from the mould conveying device 1 under the jacking action of the jacking assembly 6, avoids the vibration force from being transmitted to the mould conveying device 1 to influence the mould conveying device, and can also transmit the vibration force to the component mould 5 in a concentrated manner.

In order to effectively reduce the downward conduction of vibrational force, reduced the vibration to peripheral equipment, promote peripheral equipment's reliability, jacking subassembly 6 includes jacking base 61, pneumatic lifting device 62 and connecting plate 63, jacking subassembly 6 passes through jacking base 61 fixed mounting in the foundation ditch of mould conveyor 1 both sides, jacking subassembly 6 is connected with vibration base 3 through connecting plate 63 at pneumatic lifting device 62 top, pneumatic lifting device 62 can adjust the difference in level of vibration base 3 upper surface apart from mould conveyor 1 upper surface through inflating and deflating.

The pneumatic lifting device 62 can be an air rubber spring, which not only meets the requirement of lifting height, but also solves the problem of vibration force conduction, the medium in the air rubber spring is compressed air, the compressibility of the air is higher than that of the rubber medium, the vibration force conduction capability is lower than that of compact rubber, the structure is simple, the equipment maintenance is convenient, and the workload of maintenance personnel of an electric machine for producing the front lines is effectively reduced.

As shown in fig. 1, 5 and 6, in order to improve maintenance convenience, an equipment base 7 is arranged at the bottom of the vibration base 3, the equipment base 7 is of a box-type structure, the vibration base 3 is of a cover plate structure, the equipment base 7 is fixedly installed in foundation pits at two sides of the mold conveying device 1, and the bottom of the jacking assembly 6 is fixedly installed in the equipment base 7; vibration base 3 upward movement and equipment base 7 separation when jacking subassembly 6 lifts, vibration base 3 and equipment base 7 formation confined box when jacking subassembly 6 falls back.

The equipment base 7 is integrally wrapped on other equipment and is in modular design, so that the equipment base can be directly and integrally installed. The module is the rectangle structure, wraps up in it with all equipment, and the installation is convenient, can directly wholly hang into the foundation pit in, only need with electric, compressed air, hydraulic pressure pipeline connection interface, with ground connecting piece locking to the size check can.

Whole module outside adopts the steel sheet whole to bend and forms, also regards as the whole supporting framework of all devices as external protective housing, practices thrift the structure consumptive material and also reduces the size, can satisfy various production operating mode demands, during the maintenance, can dismantle the maintenance by the part and also can wholly hang out, maintains alone, promotes production dimension guarantor speed and guarantees the production rhythm.

In order to reduce the noise of the equipment, the base of the equipment is filled with vibration and noise reduction materials. The inner cavity of the equipment base is coated with vibration and noise reduction materials such as polyurethane foam rubber and the like, so that vibration and noise reduction of the equipment can be realized. Meanwhile, the adopted air rubber spring can effectively reduce the downward conduction of the vibration force, reduce the vibration to peripheral equipment and improve the reliability of the peripheral equipment.

As shown in fig. 8, in order to improve the degree of automation and reduce the labor intensity of the field workers, the mold conveying device 1 is symmetrically provided with aligning devices 8 at two sides, each aligning device 8 comprises a push rod 81 and a push plate 82, the push rod 81 drives the push plate 82 to move in a telescopic manner along the direction perpendicular to the track extension direction of the mold conveying device 1, the push rods 81 of the aligning devices 8 at two sides are synchronously telescopic at the same speed, the working surface of the push plate 82 of the aligning device 8 is parallel to the track extension surface of the mold conveying device 1, and the push plate 82 of the aligning device 8 is in surface contact with the side surface of the component mold 5. The aligning devices 8 are symmetrically distributed on two sides of the vibration base 3, and the aligning devices 8 are contacted with the bottom of the mold when working; the alignment device 8 is in surface contact with the side surface of the bottom of the mould, and is pushed to be aligned and then recovered, so that the alignment guide effect is realized. The working efficiency is improved through the alignment device, and the labor intensity of operators is reduced.

In the present specification, the embodiments are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other. The device disclosed by the embodiment corresponds to the method disclosed by the embodiment, so that the description is simple, and the relevant points can be referred to the method part for description.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (13)

1. A mould locking vibration device of a concrete member comprises vibration devices (2) which are symmetrically arranged at two sides of a mould conveying device (1); the method is characterized in that: the vibration device (2) is also provided with a vibration base (3) and a locking assembly (4) which are matched, and the vibration device (2) and the locking assembly (4) are respectively connected with the vibration base (3); the component mold (5) is placed on the vibration base (3), and the component mold (5) is fixedly connected with the vibration base (3) in an unlocking mode through the locking assembly (4).

2. The mold-locking vibration device for concrete members according to claim 1, wherein: the vibrating devices (2) are fixedly installed at the bottom of the vibrating base (3), at least two vibrating devices (2) are arranged, and the vibrating devices (2) are symmetrically and uniformly distributed at the bottom of the vibrating base (3).

3. The mold-locking vibration device for concrete members according to claim 1, wherein: the locking assembly (4) is a hydraulic locking mechanism and comprises a hydraulic oil cylinder (41), a locking mechanism (42) and an oil cylinder mounting seat (43), one end of the hydraulic oil cylinder (41) is connected with the vibration base (3) through the oil cylinder mounting seat (43), the other end of the hydraulic oil cylinder (41) is connected with the locking mechanism (42), the locking mechanism (42) is movably connected with the vibration base (3) in a reciprocating motion mode, and the locking mechanism (42) is driven to reciprocate by the extension of the hydraulic oil cylinder (41).

4. The mold-locking vibration device for concrete members according to claim 3, wherein: locking mechanism (42) include drive division (421), installation department (422) and locking portion (423), drive division (421) and locking portion (423) are located installation department (422) both ends, locking mechanism (42) are articulated with vibration base (3) through installation department (422), drive division (421) are articulated with hydraulic cylinder (41) end of the piston rod portion, but locking portion (423) are connected with component mould (5) bottom unblock formula.

5. The mold-locking vibration device for concrete members according to claim 4, wherein: the locking part (423) is of a hook-shaped structure, and the hook tip is bent towards the side of the component mold (5); the bottom of the component mold (5) is provided with a mold bottom plate (51), and the inner side of the hook tip is tightly contacted with the upper surface of the edge of the mold bottom plate (51) during locking.

6. The mold-locking vibration device for concrete members according to claim 5, wherein: the driving part (421) is positioned below the vibration base (3), and the hook-shaped structure of the locking part (423) penetrates through the vibration base (3) to be in close contact with the upper surface of the edge of the die bottom plate (51).

7. The mold-locking vibration device for concrete members according to claim 6, wherein: two sets of symmetrically arranged locking assemblies (4) are installed below the vibration base (3), and hook tips of the locking portions (423) are in close contact with the upper surfaces of the edges of the two sides of the die bottom plate (51) relatively and respectively.

8. The mold-locking vibration device for concrete members according to claim 2, wherein: the locking assembly (4) is positioned on the vibrating base (3) and is deviated to one side far away from the die conveying device (1).

9. The mold-locking vibration device for concrete members according to claim 1, wherein: vibration base (3) bottom is equipped with jacking subassembly (6), jacking subassembly (6) bottom fixed mounting is in the foundation ditch of mould conveyor (1) both sides, the top and the vibration base (3) of jacking subassembly (6) are connected.

10. The mold-locking vibration device for concrete members according to claim 9, wherein: jacking subassembly (6) are including jacking base (61), pneumatic lifting device (62) and connecting plate (63), jacking subassembly (6) are through jacking base (61) fixed mounting in the foundation ditch of mould conveyor (1) both sides, jacking subassembly (6) are connected with vibration base (3) through connecting plate (63) at pneumatic lifting device (62) top, pneumatic lifting device (62) can adjust the level difference of vibration base (3) upper surface apart from mould conveyor (1) upper surface through inflating and deflating.

11. A mold-lock vibration device for a concrete member according to claim 1, 3 or 9, wherein: an equipment base (7) is arranged at the bottom of the vibration base (3), the equipment base (7) is of a box structure, the vibration base (3) is of a cover plate structure, the equipment base (7) is fixedly installed in foundation pits on two sides of the mold conveying device (1), and the bottom of the jacking assembly (6) is fixedly installed in the equipment base (7); vibration base (3) upward movement separates with equipment base (7) when jacking subassembly (6) lift, and vibration base (3) and equipment base (7) form the confined box when jacking subassembly (6) fall back.

12. The mold-locking vibration device for concrete members according to claim 11, wherein: and the equipment base (7) is filled with vibration and noise reduction materials.

13. The mold-locking vibration device for concrete members according to claim 1, wherein: mould conveyor (1) bilateral symmetry is provided with and adjusts device (8) well, adjust device (8) well and include push rod (81) and push pedal (82), push rod (81) drive push pedal (82) along perpendicular mould conveyor's (1) track extending direction concertina movement, and both sides are adjusted push rod (81) of device (8) well and are synchronous with fast flexible, adjust the working face of push pedal (82) of device (8) well and the track of mould conveyor (1) to extend the face parallel, adjust push pedal (82) of device (8) well and the side of component mould (5) for face contact.

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