CN214111600U - Vibration pressing plate device - Google Patents

Abstract

The utility model discloses a vibration pressing plate device, which comprises a base platform, wherein a pressing mechanism is arranged above the base platform, a vibration pressing plate mechanism is arranged at the bottom end of the pressing mechanism, and the vibration pressing plate mechanism is matched with the base platform to press blanks; the vibrating plate pressing mechanism comprises a vibrating plate and a fixing frame which are formed by mutually splicing a plurality of vibrating modules; a horizontal fixing groove group is formed in the circumferential side wall of the vibrating plate, and the fixing frame is sleeved on the periphery of the vibrating plate and embedded into the horizontal fixing groove group, so that the plurality of vibrating modules are bound and fixed; any vibration module comprises a block body, a vibration motor arranged at the top of the block body and a longitudinal sliding assembly arranged on the side wall of the block body; the two adjacent vibration modules can be longitudinally extended and retracted through the longitudinal sliding assembly, so that at least one vibration module protrudes out of the bottom surface of the vibration plate and is used for pressing a small-area plate. Any vibration module can protrude out of other vibration modules and be independently used for pressing blanks, the vibration effect can be kept uniform, and the product quality of the small-area plate is improved.

Description

Vibration pressing plate device

Technical Field

The utility model belongs to quartz processing equipment field especially relates to a vibration clamp plate device.

Background

The quartz stone is a new stone material synthesized by more than 90% of quartz crystal, numerical value and other trace elements. The quartz stone is prepared by the processes of material mixing, pressing, curing and the like.

Adopt the vibration press to carry out the suppression technology of quartz among the prior art, the vibration press drives the clamp plate by driving actuating cylinder and pushes down to install vibrating motor on the clamp plate, make the clamp plate constantly vibrate at the in-process of suppression stock, reduce the inside space of stock, make the stock suppression more closely knit.

The existing vibrating press has huge size for improving the productivity, and when pressing a plate with small size, the area of the pressing plate of the vibrating press can not be synchronously adjusted, and the problem of uneven vibration is easily caused due to the overlarge area of the pressing plate, so that the quality of the plate pressed by the overlarge pressing plate is difficult to guarantee. Therefore, the vibration press capable of adjusting the area of the press plate is urgently needed, the area of the press plate is adjusted according to the processing requirement, and the product qualification rate is improved.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a vibration clamp plate device adopts the vibration board that the modularization concatenation constitutes to suppress the stock. The multiple modules can be combined to form a large-area vibrating plate to press a large-area plate, and a single module can be protruded to manufacture a small-area plate.

The utility model discloses a realize through following technical scheme:

a vibration pressing plate device comprises a base platform, wherein a pressing mechanism is arranged above the base platform, a vibration pressing plate mechanism is arranged at the bottom end of the pressing mechanism, and the vibration pressing plate mechanism and the base platform are matched to press a blank; the vibration pressing plate mechanism comprises a vibration plate and a fixing frame which are formed by mutually splicing a plurality of vibration modules; the fixing frame is sleeved on the periphery of the vibrating plate and embedded into the horizontal fixing groove group, so that the plurality of vibrating modules are bound and fixed; any vibration module comprises a block body, a vibration motor arranged at the top of the block body and a longitudinal sliding assembly arranged on the side wall of the block body; the two adjacent vibration modules can be longitudinally extended and retracted through the longitudinal sliding assembly, so that at least one vibration module protrudes out of the bottom surface of the vibration plate and is used for pressing a small-area plate.

By the proposal, the utility model discloses at least, obtain following technological effect:

the utility model discloses replace original pressure plate structure for the vibration board that a plurality of vibration modules splice the constitution mutually to this realizes changing vibration board and batching area of contact's purpose.

The relative displacement effect is realized through the longitudinal sliding assembly between two adjacent vibration modules, so that any vibration module can relatively protrude out of a vibration plate plane formed by other vibration modules, a vibration motor in the vibration module is independently started, the block bottom surface of the vibration module is covered on a blank placed on the base station under the driving of a pressing mechanism, and after enough pressing time is kept, the pressing of a small-area plate is completed. And a plurality of vibration modules can also be protruded in a sliding manner at the same time so as to adapt to the processing requirements of various plate areas.

All the vibration modules are bound and fixed by a fixing frame, a horizontal fixing groove group is formed in the side wall of a block body of each vibration module, and the fixing frame is sleeved on the periphery of all the vibration modules in a surrounding mode and embedded into the horizontal fixing groove group of each vibration module. Because the two adjacent vibration modules are longitudinally constrained in a sliding manner and then are matched with the transverse constraint of the fixing frame, all the vibration modules can be constrained and fixed.

This vibration presser device can change the area size of vibration board wantonly to the processing demand of the multiple panel area of adaptation, simultaneously, each vibration module matches vibrating motor alone, avoids shaking the inhomogeneous and panel quality problem that causes of effect, promotes the product percent of pass.

Preferably, the longitudinal sliding assembly comprises a longitudinal convex edge and a longitudinal sliding groove which are arranged on the side wall of the block body; the longitudinal convex edge of any vibration module is embedded into the longitudinal sliding groove of the adjacent vibration module in a sliding manner; the longitudinal sliding groove of any vibration module is embedded into the longitudinal convex edge of the adjacent vibration module in a sliding manner, so that the two adjacent vibration modules can slide relatively.

Preferably, the horizontal fixing groove group comprises an upper fixing groove, a middle fixing groove and a lower fixing groove which are arranged on the side wall of the block body; the three fixing grooves are parallel pairwise and have equal width and depth.

Preferably, the width of the fixing frame is equal to the width of any one of the fixing grooves.

Preferably, the vibrating plate further comprises a leveling plate detachably mounted to the bottom of the vibrating plate.

Preferably, the device also comprises four guide rails which are longitudinally arranged; mounting beams are erected at the top ends of the four guide rails; the downward pressing mechanism comprises a driving cylinder arranged on the mounting beam and a downward pressing base connected to the bottom end of the driving cylinder; four corners of the pressing base are respectively connected with the four guide rails in a sliding manner.

Preferably, a plurality of damping connecting columns are arranged between the vibrating plate and the pressing base; any vibration module is connected with the pressing base through at least one damping connecting column.

Preferably, any one of the shock absorption connecting columns comprises a mounting column and a spring column which are connected end to end; the top of spring post is connected with pushing down the base, the bottom and the block of erection column are connected.

The utility model has the advantages that: carry out the modularization with the vibration board and improve, arbitrary vibration module all can be used for suppressing the stock in other vibration modules alone by protrusion, and all match vibrating motor in arbitrary vibration module, reduce because vibrating motor is too far away from the suppression position and the vibrations loss that causes, it is even to keep the vibrations effect, promotes the product quality of small size panel.

Drawings

Fig. 1 is a schematic view of an overall structure of a vibration platen device according to an embodiment of the present invention.

Fig. 2 is a schematic view of a disassembly structure of the vibrating platen mechanism according to an embodiment of the present invention.

Fig. 3 is a schematic diagram of a protruding state of the vibration module according to an embodiment of the present invention.

Fig. 4 is an enlarged structural schematic view of a vibration module provided in an embodiment of the present invention.

Legend:

1, a base station; 2, a pressing mechanism; 3 vibrating the pressing plate mechanism; 4, a leveling plate; 5, a guide rail; 6, mounting a beam;

21 driving the cylinder; 22 pressing down the base; 23 shock-absorbing connecting columns;

31 a vibration module; 32 a vibrating plate; 33 a fixed frame; 34 horizontally fixing the groove group; 35 a longitudinal slide assembly;

231 mounting posts; 232 a spring post;

311 a block body; 312 vibration motor;

341 fixing grooves; 342 in the middle; 343 lower fixing grooves;

351 longitudinal ridges; 352 longitudinal runner.

Detailed Description

The present invention will be further explained with reference to the drawings and examples.

Example 1:

as shown in fig. 1, a vibration platen device is composed of a base 1, a pressing mechanism 2 and a vibration platen mechanism 3; and placing the blank to be pressed on the surface of the base platform 1, driving the vibration pressing plate mechanism 3 to press downwards by the pressing mechanism 2, covering the blank by the vibration pressing plate mechanism 3, and keeping enough pressing time to finish the pressing plate process.

As shown in fig. 2 and 3, the vibrating platen mechanism 3 includes a vibrating plate 32 and a fixing frame 33 formed by splicing nine vibrating modules 31; each vibration module 31 is composed of a block 311 and a vibration motor 312.

As shown in fig. 4, every two adjacent blocks 311 are connected by a longitudinal sliding component 35, and the longitudinal sliding component 35 is a longitudinal convex edge 351 and a longitudinal sliding groove 352 which are matched with each other; the longitudinal convex edge 351 is arranged on the side wall of one block body 311, the longitudinal sliding groove 352 is arranged on the side wall of the other block body 311, the side walls are mutually attached when the two block bodies 311 are spliced, and the longitudinal convex edge 351 is embedded in the longitudinal sliding groove 352, so that the longitudinal relative sliding of the two block bodies 311 can be realized.

As shown in fig. 2 and 3, a horizontal fixing groove group 34 is formed on a circumferential side wall of the vibration plate 32, and the horizontal fixing groove group 34 includes three groove structures parallel to each other, namely, an upper fixing groove 341, a middle fixing groove 342, and a lower fixing groove 343. The vibration plate 32 is formed by splicing nine vibration modules 31 in a squared figure shape, so that the horizontal fixing groove groups 34 are arranged on the side walls of the eight vibration modules 31 at the periphery in a subsection manner.

As shown in fig. 1 and 3, when all the vibration modules 31 in the vibration plate 32 are maintained at the same horizontal plane, the fixing frame 33 is looped around the circumferential side wall of the vibration plate 32 and is inserted into any one of the fixing grooves to bind and fix all the vibration modules 31. When any one of the vibration modules 31 of the vibration plate 32 is longitudinally slid to protrude from the surface of the vibration plate 32, the fixing frame 33 is fitted into the upper fixing groove 341 of the protruding vibration module 31, and is simultaneously fitted into the middle fixing groove 342 or the lower fixing groove 343 on the circumferential side wall of the vibration plate 32. All the vibration modules 31 are bound and fixed.

It should be noted that, because nine vibration modules 31 are adopted in this embodiment, the vibration module 31 located at the center of the squared figure cannot contact with the fixed frame 33, and the friction coefficient between the vibration module and the adjacent vibration module 31 can be increased to prevent the vibration module from falling off, and the vibration module can be temporarily fixed by a detachable connecting piece matching bolt. If there are four vibration modules 31, all the vibration modules 31 can be in contact with the fixed frame 33. Or the fan-shaped vibration modules 31 are spliced to form the circular vibration plate 32, so that the binding and fixing effects can be realized.

As shown in fig. 1, 2 and 3, in order to avoid the gaps between the vibration modules 31 from causing marks on the surface of the plate, a leveling plate 4 is additionally installed at the bottom of the vibration plate 32, each vibration module 31 acts on the leveling plate 4, and the leveling plate 4 is in contact with the blank, so that the blank can be guaranteed to be flat and smooth. The screed 4 can be installed in different sizes, and when a single vibration module 31 protrudes from the vibration plate 32, the screed 4 having the same area as that of the single vibration module 31 can be installed at the bottom of the protruding vibration module 31. When the vibration modules 31 in the vibration plate 32 are in the same horizontal plane, the leveling plate 4 having the same area as the whole vibration plate 32 may be selected and installed at the bottom of the whole vibration plate 32.

Example 2:

on the basis of embodiment 1, the four guide rails 5 are additionally arranged to enhance the stability of the pressing mechanism 2 and improve the pressing effect of the plate.

As shown in fig. 1, four guide rails 5 are vertically erected on the periphery of the base 1, and a mounting beam 6 is erected on the top ends of the four guide rails 5 as a mounting base of the press-down mechanism 2. Without the mounting beam 6, the hold-down mechanism 2 may be mounted on a frame or a wall.

The pushing mechanism 2 comprises a driving cylinder 21 and a pushing base 22, the driving cylinder 21 is fixedly arranged on the mounting beam 6, the telescopic end of the driving cylinder is connected with the pushing base 22, and the pushing base 22 is driven to ascend or descend through the self telescopic effect. The four corners of the pressing base 22 are provided with through grooves which are sleeved on the four guide rails 5, so that the pressing base 22 slides along the four guide rails 5 in the ascending or descending process, the four guide rails 5 can limit the transverse displacement of the pressing base 22, and the transverse deviation of the whole pressing mechanism 2 and the whole vibrating and braking mechanism caused by the vibrating effect in the plate pressing process is avoided.

At least nine shock-absorbing connecting columns 23 are arranged between the vibrating plate 32 and the pressing base 22, so that each vibrating module 31 is connected with at least one shock-absorbing connecting column 23. The shock absorption connecting column 23 is formed by splicing the mounting column 231 and the spring column 232 and is used for reducing the influence of the vibration effect on the structures such as the pressing mechanism 2, the guide rail 5 and the like.

Various technical features in the above embodiments may be arbitrarily combined as long as there is no conflict or contradiction in the combination between the features, but is limited to the space and is not described one by one.

The present invention is not limited to the above embodiment, and various modifications and variations of the present invention are intended to be included within the scope of the claims and the equivalent technology if they do not depart from the spirit and scope of the present invention.

Claims (8)

1. A vibrating platen device, characterized by: the device comprises a base platform, wherein a pressing mechanism is arranged above the base platform, a vibrating plate pressing mechanism is arranged at the bottom end of the pressing mechanism, and the vibrating plate pressing mechanism and the base platform are matched to press a blank; the vibration pressing plate mechanism comprises a vibration plate and a fixing frame which are formed by mutually splicing a plurality of vibration modules; the fixing frame is sleeved on the periphery of the vibrating plate and embedded into the horizontal fixing groove group, so that the plurality of vibrating modules are bound and fixed; any vibration module comprises a block body, a vibration motor arranged at the top of the block body and a longitudinal sliding assembly arranged on the side wall of the block body; the two adjacent vibration modules can be longitudinally extended and retracted through the longitudinal sliding assembly, so that at least one vibration module protrudes out of the bottom surface of the vibration plate and is used for pressing a small-area plate.

2. The vibratory platen apparatus of claim 1, wherein the longitudinal slide assembly includes longitudinal ridges and longitudinal grooves disposed on the side walls of the block; the longitudinal convex edge of any vibration module is embedded into the longitudinal sliding groove of the adjacent vibration module in a sliding manner; the longitudinal sliding groove of any vibration module is embedded into the longitudinal convex edge of the adjacent vibration module in a sliding manner, so that the two adjacent vibration modules can slide relatively.

3. The vibratory plate press apparatus of claim 1 wherein the set of horizontal stationary slots includes an upper stationary slot, a middle stationary slot, and a lower stationary slot disposed in the side walls of the block; the three fixing grooves are parallel pairwise and have equal width and depth.

4. The vibratory platen apparatus of claim 3, wherein the width of the stationary frame is equal to the width of any one of the stationary slots.

5. The vibrating platen device of claim 1 further comprising a screed removably mounted to the bottom of the vibrating plate.

6. The vibratory platen apparatus of claim 1 further comprising four longitudinally disposed guide rails; mounting beams are erected at the top ends of the four guide rails; the downward pressing mechanism comprises a driving cylinder arranged on the mounting beam and a downward pressing base connected to the bottom end of the driving cylinder; four corners of the pressing base are respectively connected with the four guide rails in a sliding manner.

7. The vibrating platen device according to claim 6, wherein a plurality of shock absorbing connection posts are disposed between the vibrating plate and the pressing base; any vibration module is connected with the pressing base through at least one damping connecting column.

8. The vibratory platen apparatus of claim 7, wherein any of the shock absorbing attachment posts includes an end-to-end mounting post and a spring post; the top of spring post is connected with pushing down the base, the bottom and the block of erection column are connected.

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