CN215750344U

CN215750344U - Resin handicraft shakes mould machine

Info

Publication number: CN215750344U
Application number: CN202122317612.1U
Authority: CN
Inventors: 张清波
Original assignee: Jinjiang Jiexin Mechanical Equipment Co ltd
Current assignee: Jinjiang Jiexin Mechanical Equipment Co ltd
Priority date: 2021-09-24
Filing date: 2021-09-24
Publication date: 2022-02-08
Anticipated expiration: 2031-09-24

Abstract

The utility model discloses a resin handicraft mold shaking machine, which comprises a rack, wherein a lower frame capable of rotating around a horizontal shaft and a vertical shaft is arranged in the rack, the top of the lower frame is provided with an opening, a telescopic first pressing device is arranged in the lower frame, a second pressing device capable of lifting and moving back and forth and a lifting upper frame are arranged above the lower frame, the bottom of the upper frame is also provided with an opening, the upper frame is matched with the lower frame, and the interior of the upper frame is communicated with an exhaust pipe. The utility model can realize the automatic shaking of the resin slurry in the die, saves a large amount of manpower, and greatly improves the shaking efficiency.

Description

Resin handicraft shakes mould machine

Technical Field

The utility model relates to the field of machinery, in particular to a mold shaking machine for resin artware.

Background

The resin handicraft is made up by using resin as main raw material and adopting mould casting process to make various figures, animals, kunming birds and landscape, etc. with beautiful appearance and various emulation effects. In the production process of resin artware, because the wall thickness of a plurality of resin artware is thin, the resin sizing agent needs to be shaken up after being poured into a mould, so that the resin sizing agent can be uniformly dispersed in all positions in the mould. In present production process, the mode that mostly adopts artifical shaking die lets resin thick liquids carry out homodisperse, but adopts artifical mode comparatively tradition, often has the inhomogeneous problem of resin thick liquids dispersion, and artifical shaking die is more time-consuming, hard moreover, and work efficiency is low.

SUMMERY OF THE UTILITY MODEL

The utility model provides a resin handicraft mold shaking machine, which mainly aims to solve the problems of uneven manual slurry shaking and low efficiency in the prior art.

In order to solve the technical problems, the utility model adopts the following technical scheme:

the utility model provides a resin handicraft shakes mould machine, includes the frame, is equipped with in this frame and can rotates around the horizontal axis and around vertical axis pivoted lower frame, and the top of this lower frame is the opening, be equipped with the first closing device of telescopic in the lower frame, but the top of lower frame is equipped with second closing device and the upper ledge of liftable that liftable and back-and-forth movement can be moved, and the bottom of this upper ledge also is the opening, upper ledge and lower frame looks adaptation, the inside and an exhaust tube intercommunication of this upper ledge.

Further, the below of lower frame is equipped with the equipment box, and the top of this equipment box is the opening, the top internal stability of equipment box has the plate body, be equipped with left bearing frame, right bearing frame and first actuating mechanism in the frame, be equipped with left horizontal axis between left bearing frame and the equipment box, be equipped with right horizontal axis between right bearing frame and the equipment box, the right-hand member of this right horizontal axis passes right bearing frame and is connected with the transmission of first actuating mechanism, be equipped with in the equipment box and drive the lower frame around vertical axis pivoted second actuating mechanism.

Still further, left side top, the right side top of equipment box are equipped with left U type mouth, right U type mouth respectively, left side horizontal axis is located between the left end of left bearing frame and plate body, right side horizontal axis is located between the right-hand member of right bearing frame and plate body, left side horizontal axis, right horizontal axis pass left U type mouth, right U type mouth respectively.

Furthermore, the first driving mechanism comprises a first servo motor and a first speed reducer, the output end of the first servo motor is connected with the input end of the first speed reducer motor, and the output end of the first speed reducer motor is connected with the right horizontal shaft.

Furthermore, the second driving mechanism comprises a second servo motor and a second speed reducer, the output end of the second servo motor is connected with the input end of the second speed reducer, a connecting disc is arranged at the bottom of the lower frame, a vertical shaft is arranged at the bottom of the connecting disc, a shaft sleeve is arranged between the bottom of the plate body and the top of the second speed reducer, and the bottom of the vertical shaft penetrates through the plate body and the shaft sleeve respectively to be connected with the output end of the second speed reducer.

Furthermore, the front side of the lower frame is provided with two telescopic cylinders which are arranged at a left interval and a right interval, the first pressing device comprises a first connecting plate, a first pressing plate positioned at the rear side of the first connecting plate and two first connecting rods which are arranged at a left interval and a right interval, the two first connecting rods are arranged between the rear side of the first connecting plate and the front side of the first pressing plate, and piston rods of the two telescopic cylinders extend into the lower frame and are connected with the front side of the first connecting plate.

Furthermore, the left side of lower frame is equipped with left no pole cylinder and left lift cylinder, and the right side of this lower frame is equipped with right no pole cylinder and right lift cylinder, the slider of left no pole cylinder is connected with the bottom of left lift cylinder, the slider of right no pole cylinder is connected with the bottom of right lift cylinder, second closing device includes the second connecting plate, is located the second clamp plate of second connecting plate below and two second connecting rods of left and right interval arrangement, and between the bottom surface of second connecting plate and the top surface of second clamp plate, the piston rod top of left lift cylinder and the piston rod top of right lift cylinder are located to the second connecting plate.

Further, the top of frame is equipped with and drives actuating cylinder, front bearing frame and rear bearing frame, it is located one side of front bearing frame and rear bearing frame to drive actuating cylinder, be equipped with the axis of rotation between front bearing frame and the rear bearing frame, the middle part of this axis of rotation is equipped with the transition sprocket, it is equipped with the chain to drive between the piston rod of actuating cylinder and the top of upper ledge, and this chain bypasses the transition sprocket.

Furthermore, be equipped with left guide arm and right guide arm in the frame, the top of upper ledge is equipped with the roof, and the left and right end of this roof is equipped with left sliding sleeve, right sliding sleeve respectively, left side sliding sleeve, right sliding sleeve overlap respectively on left guide arm, right guide arm, the upper ledge is located between left guide arm and the right guide arm.

As can be seen from the above description of the present invention, compared with the prior art, the present invention has the following advantages: the utility model has novel structure and ingenious design, the mould of the resin handicraft is placed in the lower frame, one side surface of the mould is abutted against one inner side surface of the lower frame, the first pressing device extends to abut against the other side surface of the mould, then the second pressing device moves to the upper part of the mould, the second pressing device descends to abut against the top surface of the mould, the mould is fixed in the lower frame, the lower frame rotates for a certain angle around the horizontal shaft after the mould is fixed, then the lower frame rotates for 360 degrees in a reciprocating way, shaking the resin slurry in the mould uniformly, returning the lower frame and the second pressing device after the resin slurry is shaken uniformly for a period of time, descending the upper frame to the top of the lower frame to form a closed space inside the upper frame and the lower frame, and then, vacuumizing the closed space through an exhaust pipe, exhausting air in the mold, returning the upper frame after vacuumizing is finished, and shaking up the resin slurry in the mold by the continuous shaking up action of the lower frame. The utility model can realize the automatic shaking of the resin slurry in the die, saves a large amount of manpower, and greatly improves the shaking efficiency.

Drawings

FIG. 1 is a block diagram of the present invention.

Fig. 2 is a block diagram of the present invention with the equipment box removed.

Fig. 3 is a structural view of the connection pad of the present invention.

Detailed Description

Refer to fig. 1. A resin handicraft shaking and molding machine comprises a machine frame 1, wherein a lower frame 2 capable of rotating around a horizontal shaft and a vertical shaft is arranged in the machine frame 1, the top of the lower frame 2 is provided with an opening, and a telescopic first pressing device 3 is arranged in the lower frame 2. The upper portion of the lower frame 2 is provided with a second pressing device 4 capable of lifting and moving back and forth and an upper frame 5 capable of lifting, the bottom of the upper frame 5 is also provided with an opening, the upper frame 5 is matched with the lower frame 2, and the interior of the upper frame 5 is communicated with an exhaust pipe.

Refer to fig. 1 and 2. An equipment box 6 is arranged below the lower frame 2, the top of the equipment box 6 is provided with an opening, a plate body 7 is fixedly arranged in the top of the equipment box 6, and a left bearing seat 8, a right bearing seat 9 and a first driving mechanism 10 are arranged on the rack 1. A left horizontal shaft 11 is arranged between the left bearing seat 8 and the equipment box 6, a right horizontal shaft 12 is arranged between the right bearing seat 9 and the equipment box 6, the right end of the right horizontal shaft 12 penetrates through the right bearing seat 9 to be in transmission connection with a first driving mechanism 10, and a second driving mechanism 13 which drives the lower frame 2 to rotate around a vertical shaft is arranged in the equipment box 6.

Refer to fig. 1 and 2. The left side top, the right side top of equipment box 6 are equipped with left U type mouth 61, right U type mouth respectively (do not mark in the picture), left side horizontal axis 11 is located between the left end of left bearing frame 8 and plate body 7, right side horizontal axis 12 is located between the right-hand member of right bearing frame 9 and plate body 7, left side horizontal axis 11, right horizontal axis 12 pass left U type mouth 61, right U type mouth respectively (do not mark in the picture). The first driving mechanism 10 includes a first servo motor 101 and a first speed reducer 102, an output end of the first servo motor 101 is connected with an input end of the first speed reducer motor 102, and an output end of the first speed reducer motor 102 is connected with the right horizontal shaft 12.

Refer to fig. 1 to 3. The second driving mechanism 13 includes a second servo motor 131 and a second speed reducer 132, an output end of the second servo motor 131 is connected with an input end of the second speed reducer 132, a connecting disc 14 is arranged at the bottom of the lower frame 2, and a vertical shaft 141 is arranged at the bottom of the connecting disc 14. A shaft sleeve 15 is arranged between the bottom of the plate body 7 and the top of the second speed reducer 132, and the bottom of the vertical shaft 141 penetrates through the plate body 7 and the shaft sleeve 15 respectively to be connected with the output end of the second speed reducer 132. The first servo motor 101 drives the right horizontal shaft 12, the plate body 7 and the left horizontal shaft 11 to rotate through the first speed reducer 102, so as to drive the equipment box 6 and the lower frame 2 to rotate around the left horizontal shaft 11 and the right horizontal shaft 12; the second servo motor 131 drives the vertical shaft 141 to rotate through the second reducer 132, so that the lower frame 2 can rotate around the vertical shaft 141. The first servo motor 101 and the second servo motor 131 are controlled by a control system.

Refer to fig. 1. The front side of lower frame 2 is equipped with two telescopic cylinder 16 of left and right interval arrangement, first closing device 3 includes first connecting plate 31, is located the first clamp plate 32 and the left and right interval arrangement's of first connecting plate 31 rear side two head rod 33, and this two head rod 33 is located between the rear side of first connecting plate 31 and the front side of first clamp plate 32, the piston rod of two telescopic cylinder 16 stretches into in lower frame 2 and is connected with the front side of first connecting plate 31. The two telescopic cylinders 16 are used for driving the first pressing device 3 to stretch, and the first pressing plates 32 can be abutted against the side faces of the mold when the piston rods of the two telescopic cylinders 16 stretch.

Refer to fig. 1. The left side of lower frame 2 is equipped with left no pole cylinder 17 and left lift cylinder 18, and the right side of this lower frame 2 is equipped with right no pole cylinder 19 and right lift cylinder 20, the slider of left no pole cylinder 17 is connected with the bottom of left lift cylinder 18, the slider of right no pole cylinder 19 is connected with the bottom of right lift cylinder 20, left no pole cylinder 17 and right no pole cylinder 19 are current structure. The second pressing device 4 comprises a second connecting plate 41, a second pressing plate 42 located below the second connecting plate 41, and two second connecting rods 43 arranged at intervals left and right, the two second connecting rods 43 are arranged between the bottom surface of the second connecting plate 41 and the top surface of the second pressing plate 42, and the second connecting plate 41 is arranged between the top of the piston rod of the left lifting cylinder 18 and the top of the piston rod of the right lifting cylinder 20. The left rodless cylinder 17 and the right rodless cylinder 19 synchronously drive the second pressing device 4 to move forwards and backwards, the left lifting cylinder 18 and the right lifting cylinder 20 are used for synchronously driving the second pressing device 4 to lift, and the second pressing plate 42 can be abutted to the top surface of the mold when the second pressing device 4 descends.

Refer to fig. 1. The top of frame 1 is equipped with drive cylinder 21, front bearing frame 22 and rear bearing frame 23, drive cylinder 21 and be located one side of front bearing frame 22 and rear bearing frame 23, be equipped with axis of rotation 24 between front bearing frame 22 and the rear bearing frame 23, the middle part of this axis of rotation 24 is equipped with transition sprocket 241, be equipped with chain 25 between the piston rod of drive cylinder 20 and the top of upper ledge 5, this chain 25 is walked around transition sprocket 241. The frame 1 is provided with a left guide rod 26 and a right guide rod 27, the top of the upper frame 5 is provided with a top plate 28, the left end and the right end of the top plate 25 are respectively provided with a left sliding sleeve 29 and a right sliding sleeve 30, the left sliding sleeve 29 and the right sliding sleeve 30 are respectively sleeved on the left guide rod 26 and the right guide rod 27, and the upper frame 5 is positioned between the left guide rod 26 and the right guide rod 27. In this embodiment, the chain 25 is disposed between the piston rod of the driving cylinder 20 and the top plate 28, the piston rod of the driving cylinder 20 is driven by the chain 25 to descend and ascend when extending and retracting, and the left guide rod 26 and the right guide rod 27 play a guiding role in ascending and descending of the upper frame 5.

Refer to fig. 1 to 3. The design principle of the utility model is as follows: the mold of the resin handicraft is placed in the lower frame 2, one side face of the mold is abutted against one inner side face of the lower frame 2, the first pressing device 3 extends to abut against the other side face of the mold, then the second pressing device 4 moves to the upper portion of the mold, and the second pressing device 4 descends to abut against the top face of the mold, so that the mold is fixed in the lower frame 2. The mould accomplishes fixed back lower frame 2 and rotates certain angle around the horizontal axis, then lower frame 2 carries out 360 reciprocating rotation again, shake even to the resin thick liquids in the mould, resin thick liquids shake even behind a period lower frame 2 return, the return of second closing device 4, go up 5 steps down and make the inside of upper frame 5 and lower frame 2 form an airtight space to the top of lower frame 2, carry out the evacuation through the exhaust tube to airtight space after that, take out the air in the mould, 5 returns of upper frame after the evacuation is accomplished, lower frame 2 continues foretell shake even action and shakes even to the resin thick liquids in the mould.

The above description is only an embodiment of the present invention, but the design concept of the present invention is not limited thereto, and any insubstantial modifications made by using the design concept should fall within the scope of infringing the present invention.

Claims

1. A resin handicraft shakes mould machine, its characterized in that: including the frame, be equipped with in this frame and rotate around the horizontal axis and around vertical axis pivoted lower frame, the top of this lower frame is the opening, be equipped with the first closing device of telescopic in the lower frame, the top of lower frame is equipped with liftable and second closing device and the upper ledge of liftable that can the back-and-forth movement, and the bottom of this upper ledge also is the opening, upper ledge and lower frame looks adaptation, the inside and an exhaust tube intercommunication of this upper ledge.

2. The die rocker for resin artware according to claim 1, characterized in that: the utility model discloses a vertical shaft drive mechanism, including lower frame, equipment box, plate body, left bearing frame, right bearing frame and first actuating mechanism, be equipped with left horizontal axis between left side bearing frame and the equipment box, be equipped with right horizontal axis between right side bearing frame and the equipment box, the below of lower frame is equipped with the equipment box, and the top of this equipment box is the opening, the plate body has set firmly in the top of equipment box, be equipped with left bearing frame, right bearing frame and first actuating mechanism in the frame, be equipped with left horizontal axis between left side bearing frame and the equipment box, be equipped with right horizontal axis between right side bearing frame and the equipment box, the right-hand member of this right horizontal axis passes right bearing frame and is connected with the transmission of first actuating mechanism, be equipped with in the equipment box and drive the lower frame around vertical axis pivoted second actuating mechanism.

3. The mold shaking machine for resin crafts as claimed in claim 2, characterized in that: the left side top, the right side top of equipment box are equipped with left U type mouth, right U type mouth respectively, left side horizontal axis is located between the left end of left bearing frame and plate body, right side horizontal axis is located between the right-hand member of right bearing frame and plate body, left side horizontal axis, right horizontal axis pass left U type mouth, right U type mouth respectively.

4. The mold shaking machine for resin crafts as claimed in claim 2, characterized in that: the first driving mechanism comprises a first servo motor and a first speed reducer, the output end of the first servo motor is connected with the input end of the first speed reducer motor, and the output end of the first speed reducer motor is connected with the right horizontal shaft.

5. The mold shaking machine for resin crafts as claimed in claim 2, characterized in that: the second driving mechanism comprises a second servo motor and a second speed reducer, the output end of the second servo motor is connected with the input end of the second speed reducer motor, a connecting disc is arranged at the bottom of the lower frame, a vertical shaft is arranged at the bottom of the connecting disc, a shaft sleeve is arranged between the bottom of the plate body and the top of the second speed reducer, and the bottom of the vertical shaft penetrates through the plate body and the shaft sleeve to be connected with the output end of the second speed reducer.

6. The die rocker for resin artware according to claim 1, characterized in that: the front side of lower frame is equipped with two telescopic cylinder of left and right interval arrangement, first closing device includes first connecting plate, is located the first clamp plate of first connecting plate rear side and two head rods of left and right interval arrangement, and this two head rods are located between the rear side of first connecting plate and the leading flank of first clamp plate, two telescopic cylinder's piston rod stretches into in the lower frame and is connected with the leading flank of first connecting plate.

7. The die rocker for resin artware according to claim 1, characterized in that: the left side of lower frame is equipped with left no pole cylinder and left lift cylinder, and the right side of this lower frame is equipped with right no pole cylinder and right lift cylinder, the slider of left no pole cylinder is connected with the bottom of left lift cylinder, the slider of right no pole cylinder is connected with the bottom of right lift cylinder, second closing device includes the second connecting plate, is located the second clamp plate of second connecting plate below and the two second connecting rods of left and right interval arrangement, and between the bottom surface of second connecting plate and the top surface of second clamp plate was located to these two second connecting rods, the piston rod top of left lift cylinder and the piston rod top of right lift cylinder are located to the second connecting plate.

8. The die rocker for resin artware according to claim 1, characterized in that: the top of frame is equipped with drives actuating cylinder, front bearing frame and rear bearing frame, it is located one side of front bearing frame and rear bearing frame to drive actuating cylinder, be equipped with the axis of rotation between front bearing frame and the rear bearing frame, the middle part of this axis of rotation is equipped with the transition sprocket, it is equipped with the chain to drive between the piston rod of actuating cylinder and the top of upper ledge, and transition sprocket is walked around to this chain.

9. The die rocker for resin artware according to claim 1, characterized in that: the frame is provided with a left guide rod and a right guide rod, the top of the upper frame is provided with a top plate, the left end and the right end of the top plate are respectively provided with a left sliding sleeve and a right sliding sleeve, the left sliding sleeve and the right sliding sleeve are respectively sleeved on the left guide rod and the right guide rod, and the upper frame is positioned between the left guide rod and the right guide rod.