CN117549413A - Automatic demolding equipment for prefabricated part - Google Patents

Abstract

The invention relates to automatic demolding equipment for prefabricated parts, which comprises a base, wherein a rotating assembly is arranged on the base, a plurality of molding cavities are arranged on the rotating assembly, a fixing assembly is arranged on the base, a knocking assembly and an auxiliary assembly arranged on a rotating path of the knocking assembly are arranged on the fixing assembly, a clamping assembly and a guiding assembly arranged on the rotating path of the clamping assembly are arranged on the molding cavities, a blanking assembly is arranged on the fixing assembly, the rotating assembly is used for driving a prefabricated part mold and the prefabricated part to rotate, the knocking assembly is used for knocking the prefabricated part mold under the cooperation of the auxiliary assembly, the clamping assembly is used for clamping the prefabricated part mold under the cooperation of the guiding assembly, the blanking assembly is used for blanking the prefabricated part, the automatic demolding degree is improved, and the prefabricated part is ensured to be demolded smoothly from a prefabricated part mold.

Description

Automatic demolding equipment for prefabricated part

Technical Field

The invention relates to the field of prefabricated part molds, in particular to automatic demolding equipment for prefabricated parts.

Background

The precast concrete components are building components which are prepared in advance in factories by taking concrete as a basic material, and comprise beams, plates, columns, building decoration accessories and the like. The precast concrete is widely applied to the fields of construction, traffic, water conservancy and the like, and plays an important role in national economy. In the manufacturing process of the prefabricated member, the demolding process is very important, and even the production quality of the prefabricated member can be affected.

At present, the existing prefabricated member demolding is usually performed in a manual mode, time and labor are wasted, and the situation that the prefabricated member is broken due to improper demolding method during manual demolding is caused, and meanwhile, most of demolding devices in the market cannot effectively knock a prefabricated member model, so that demolding effect is easily affected.

Chinese patent with publication number CN112476748A discloses a supplementary shedder of prefab, can realize the intermittent type unloading of prefab of non-drawing of patterns through conveyer and pusher intermittent type, when conveyer drove the prefab of non-drawing of patterns and hit the pin, the prefab of non-drawing of patterns falls backward, the kicking block withstands the prefab mould middle part, the prefab passes the ejector pin and drops and lie in the conveyer belt, realize the quick drawing of patterns of prefab, but the device can't guarantee the condition that does not take place to turn over when pushing the prefab mould to the baffle, the device just bumps the prefab model back mode through the shelves pole and carries out the drawing of patterns with the prefab from the prefab model simultaneously, this mode can't confirm that the prefab can be smooth drops from the prefab model.

Disclosure of Invention

The invention aims at overcoming the defects of the prior art, and provides automatic demolding equipment for a prefabricated part, which is characterized in that a prefabricated part model is limited through a molding cavity and then is driven to rotate through a rotating assembly, the prefabricated part model is knocked at a constant speed through a knocking assembly, the prefabricated part model is clamped and separated from the prefabricated part through a clamping assembly and a guiding assembly, the prefabricated part is fed under the action of a blanking assembly, so that the automatic demolding degree is improved, and the prefabricated part is ensured to be demolded smoothly from the prefabricated part model.

The technical solution of the invention is as follows:

the utility model provides an automatic drawing of patterns equipment of prefab, includes the base, be provided with rotating assembly on the base, be provided with a plurality of molding cavity on the rotating assembly, be provided with fixed subassembly on the base, be provided with on the fixed subassembly and strike the auxiliary assembly that the subassembly rotated the route and set up, be provided with clamping assembly on the molding cavity and the direction subassembly that sets up on the clamping assembly pivoted the route, be provided with the unloading subassembly on the fixed subassembly, rotating assembly is used for driving prefab mould and prefab and rotates, strike the subassembly and be used for beating the prefab mould under auxiliary assembly's cooperation, clamping assembly is used for pressing from both sides the prefab mould under direction subassembly's cooperation, the unloading subassembly is used for carrying out the unloading to the prefab.

Preferably, the rotating assembly comprises a motor, a rotating rod arranged on the base in a rotating mode and a rotary table fixedly arranged on the rotating rod, and an output shaft of the motor is connected with the rotating rod through a belt.

As one preferable, the fixing component comprises a fixing disc fixedly arranged on the base, a fixing rod fixedly arranged in the rotating rod and a chassis fixedly arranged on the fixing rod, wherein the fixing disc penetrates through the rotating rod to be attached to the lower surface of the rotating disc, and the chassis is attached to the upper surface of the rotating disc.

Preferably, the knocking assembly comprises a plurality of knocking rods rotatably arranged on the chassis, knocking heads fixedly arranged on the knocking rods and a first spring connected between the knocking rods and the chassis, and the knocking heads are matched with the prefabricated member die.

As one preference, the auxiliary assembly comprises a knocking column fixedly arranged on the knocking rod and a boss fixedly arranged on the rotating disc, the surface of the boss is of a wavy structure, and the bottom end of the knocking column is spherical and matched with the boss.

As one preferable, the clamping assembly comprises a through groove formed in the turntable, a telescopic rod arranged in the through groove in a sliding manner, a clamping plate fixedly arranged on the telescopic rod, and a guide column fixedly arranged on the clamping plate, wherein the clamping plate is matched with the prefabricated member in a butt joint manner, the bottom of the guide column is spherical, and a second spring is arranged between the clamping plate and the telescopic rod.

Preferably, the guide assembly comprises a guide rail fixedly arranged on the fixed disc and the chassis and a chute arranged on the guide rail, the guide rail comprises an ascending section and a descending section, the chute comprises a contraction section and an expansion section, and the bottom end of the guide column is matched with the chute.

Preferably, the blanking assembly comprises a blanking opening formed in the fixed disc and a conveyor belt arranged below the blanking opening, and the blanking opening is matched with the prefabricated member.

Preferably, the splint is provided with a soft cushion.

Preferably, the knocking head is made of flexible silica gel material.

The invention has the beneficial effects that

1. The invention is provided with the knocking component and the auxiliary component, the non-demoulded prefabricated member model is sequentially placed in the molding cavity in the feeding area, when the turntable rotates, the prefabricated member model and the boss are driven to rotate, then the prefabricated member model enters the knocking area, and when the boss passes through the knocking column, the knocking column repeatedly moves up and down, so that the knocking head is driven to uniformly knock the prefabricated member model, the prefabricated member is ensured to demould from the prefabricated member model, and the demould effect is improved.

2. The invention is provided with the clamping component and the guide component, when the knocking head is knocked, the prefabricated part model enters the demolding area, when the guide column slides into the sliding groove, the guide column enters the ascending section and simultaneously enters the contraction section, so that the two clamping plates are mutually close to clamp the prefabricated part model, and simultaneously drive the prefabricated part model to lift, so that the prefabricated part model is separated from the prefabricated part, and then the clamping plates enter the expansion section while carrying out the descending section, so that the two clamping plates are mutually far away from each other to cancel the clamping of the prefabricated part model, the prefabricated part model can be taken out from the two clamping plates manually, and meanwhile, the clamping plates descend to reenter the feeding area and return to two sides of the molding cavity, thereby preparing for the next demolding, improving the demolding efficiency and improving the automation degree.

In conclusion, the invention has the advantages of good demolding effect and high demolding efficiency, and is suitable for the field of prefabricated member molds.

Drawings

The invention is further described with reference to the accompanying drawings:

FIG. 1 is a schematic view of an automated demolding apparatus for preforms;

FIG. 2 is a schematic view of a rapping assembly;

FIG. 3 is a schematic cross-sectional view of a fixing assembly;

FIG. 4 is a schematic cross-sectional view of a clamping assembly;

FIG. 5 is a schematic view of the structure of a knocking head;

FIG. 6 is a schematic view showing the state of the track in the ascending and descending sections;

FIG. 7 is a schematic view showing a state when the knocking post is matched with the boss to drive the knocking head to knock;

FIG. 8 is a schematic view of the guide post as it passes through the contracted section and the expanded section;

FIG. 9 is a schematic view showing the clamping plate entering the chute to clamp the preform mold and lifting the same;

FIG. 10 is a schematic view showing a state when a preform is released from a preform mold and falls onto a conveyor through a feed opening;

reference numerals: 1 base, 2 rotating components, 21 motor, 22 rotating rod, 23 turntables, 3 molding cavity, 4 fixing components, 41 fixing disk, 42 fixing rod, 43 chassis, 5 knocking components, 51 knocking rod, 52 knocking head, 53 first spring, 6 auxiliary components, 61 knocking column, 62 boss, 7 clamping components, 71 through groove, 72 telescopic rod, 73 clamping plate, 74 guide column, 75 second spring, 8 guide components, 81 guide rail, 82 sliding groove, 9 blanking components, 91 blanking port, 92 conveyor belt, 10 prefabricated member mould, 11 prefabricated member, 12 ascending section, 13 descending section, 14 contracting section, 15 expanding section.

Detailed Description

The technical solutions in the embodiments of the present invention are clearly and completely described below with reference to the accompanying drawings.

Example 1

Embodiments of the present invention are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative and intended to explain the present invention and should not be construed as limiting the invention.

As shown in fig. 1 to 10, an automatic demolding device for prefabricated parts comprises a base 1, a rotating component 2 is arranged on the base 1, a plurality of forming cavities 3 are arranged on the rotating component 2, a fixing component 4 is arranged on the base 1, a knocking component 5 and an auxiliary component 6 arranged on a rotating path of the knocking component 5 are arranged on the fixing component 4, a clamping component 7 and a guide component 8 arranged on the rotating path of the clamping component 7 are arranged on the forming cavities 3, a blanking component 9 is arranged on the fixing component 4, the rotating component 2 is used for driving a prefabricated part die 10 and the prefabricated part 11 to rotate, the knocking component 5 is used for knocking the prefabricated part die 10 under the cooperation of the auxiliary component 6, the clamping component 7 is used for clamping the prefabricated part die 10 under the cooperation of the guide component 8, the blanking component 9 is used for blanking the prefabricated part 11, and the forming cavities above the blanking component 9 are blanking areas, and the blanking areas, the knocking areas and the demolding areas are sequentially arranged clockwise.

As shown in fig. 1 and 2, the rotating assembly 2 includes a motor 21, a rotating rod 22 rotatably disposed on the base 1, and a turntable 23 fixedly disposed on the rotating rod 22, wherein an output shaft of the motor 21 is connected with the rotating rod 22 through a belt, and when in use, the motor 21 drives the turntable 23 to rotate, thereby driving the prefabricated member model 10 and the prefabricated member 11 to rotate, demolding the prefabricated member model and the prefabricated member 11 in the rotating process, and improving demolding efficiency.

As shown in fig. 3, the fixing assembly 4 includes a fixing plate 41 fixedly arranged on the base 1, a fixing rod 42 fixedly arranged in the rotating rod 22, and a chassis 43 fixedly arranged on the fixing rod 42, the fixing plate 41 passes through the rotating rod 22 to be attached to the lower surface of the turntable 23, the chassis 43 is attached to the upper surface of the turntable 23, when in use, the non-demolding prefabricated member model 10 is placed in the turntable 23 through the molding cavity 3, the bottom surface of the prefabricated member model 10 is attached to the fixing plate 41, and the blanking of the prefabricated member 11 during the follow-up demolding is facilitated.

As shown in fig. 2 and 5, the knocking assembly 5 includes a plurality of knocking rods 51 rotatably disposed on the chassis 43, a knocking head 52 fixedly disposed on the knocking rods 51, and a first spring 53 connecting the knocking rods 51 and the chassis 43, where the knocking head 52 is matched with the preform mold 10, and when in use, the non-demoulded preform mold 10 is sequentially placed in the molding cavity 3 in the feeding area, and after entering the knocking area, the non-demoulded preform mold 10 is uniformly knocked by the knocking head 52, so as to improve the demould effect.

As shown in fig. 7, the auxiliary assembly 6 includes a knocking post 61 fixedly disposed on the knocking rod 51 and a boss 62 fixedly disposed on the turntable 23, the surface of the boss 62 is in a wave-shaped structure, the bottom end of the knocking post 61 is spherical and is matched with the boss 62, when the turntable 23 rotates in use, the boss 62 is driven to rotate, and when the boss 62 passes through the knocking post 61, the knocking post 61 is driven to reciprocate up and down, so that the knocking head 52 is driven to uniformly knock the preform model 10, and the preform 11 is ensured to be successfully demolded from the preform model 10.

As shown in fig. 4, the clamping assembly 7 comprises a through groove 71 formed on the turntable 23, a telescopic rod 72 slidably arranged in the through groove 71, a clamping plate 73 fixedly arranged on the telescopic rod 72, and a guide post 74 fixedly arranged on the clamping plate 73, wherein the clamping plate 73 is in butt fit with the prefabricated member model 10, the bottom of the guide post 74 is spherical, a second spring 75 is arranged between the clamping plate 73 and the telescopic rod 72, the prefabricated member model 10 in the feeding area and the knocking area is limited through the clamping plate 73, the prefabricated member model 10 is prevented from shifting during rotation and knocking, and the clamping plate 73 has the effect of clamping the prefabricated member model 10 in the demolding area for quick demolding.

As shown in fig. 6 to 10, the guide assembly 8 includes a guide rail 81 fixedly disposed on the fixing plate 41 and the chassis 43, and a chute 82 formed on the guide rail 81, the guide rail 81 is composed of the ascending section 12 and the descending section 13, the chute 82 is composed of the contracting section 14 and the expanding section 15, the bottom end of the guide post 72 is matched with the chute 82, when the knocking head 52 is knocked, the prefabricated part model 10 enters the demolding area after the knocking is completed, when the guide post 74 slides into the chute 82, enters the ascending section 12 and enters the contracting section 14, the two clamping plates 73 are close to each other to clamp the prefabricated part model 10, the prefabricated part model 10 is driven to be lifted at the same time, the prefabricated part model 10 is separated from the prefabricated part 11, then the clamping plates 73 enter the descending section 13 and enter the expanding section 15 at the same time, the clamping plates 73 are far away from each other, the prefabricated part model 10 can be manually taken out from the two clamping plates 73, the clamping plates 73 are lowered again into the feeding area, and reset to the two sides of the molding cavity 3, so as to prepare for the next demolding, the demolding efficiency is improved, and the automation degree is improved.

As shown in fig. 10, the blanking assembly 9 includes a blanking opening 91 formed on the fixed disc 41 and a conveyor belt 92 disposed below the blanking opening 91, the blanking opening 91 is matched with the prefabricated member 11, when the clamping plate 73 clamps the prefabricated member model 10 in use, the prefabricated member 11 is separated from the prefabricated member model 10, the turntable 23 continues to drive the prefabricated member 11 to rotate, and the prefabricated member 11 falls onto the conveyor belt 92 when passing through the blanking opening 91, so that the prefabricated member is convenient to collect.

As shown in fig. 8, the clamping plates 71 are provided with cushions to prevent damage to the preform mold 10 when clamping the preform mold 10.

Example two

As shown in fig. 2, wherein the same or corresponding parts as those in the first embodiment are given the same reference numerals as those in the first embodiment, only the points of distinction from the first embodiment will be described below for the sake of brevity; the second embodiment is different from the first embodiment in that: the striking head 52 is constructed of a flexible silicone material.

Here, in this embodiment, the tapping heads 52 are made of flexible silica gel, and since the silica gel has good flexibility and ductility, the tapping heads 52 have elastic force, so that each tapping head 52 can contact the preform model 11 to perform tapping.

Working process

The user puts into carousel 23 with the preformed unit 10 that does not demold through the shaping chamber 3 in the loading area, rotate 23 and rotate and drive preformed unit 10 and boss 62 to rotate, then preformed unit 10 gets into and beat the district, when boss 62 passes through and beats post 61, make and beat post 61 and reciprocate, thereby drive and beat head 52 and evenly beat preformed unit 10, when beat head 52 and beat the completion, preformed unit 10 gets into the drawing of patterns district, slide in spout 82 when the guide post 74, get into in the section 12 that rises, get into shrink section 14, make two splint 73 be close to each other and press from both sides preformed unit 10, drive preformed unit 10 simultaneously and rise, make preformed unit 10 separate with preformed unit 11, then splint 73 get into expansion section 15 when descending section 13, make two splint 73 keep away from each other and cancel the clamp to preformed unit 10, the preformed unit 10 in two splint 73, simultaneously, splint 73 descend and reentry the loading area, and reset back to become die cavity 3 both sides, prepare for next time, improve the drawing of patterns efficiency, improve degree of automation, when splint 73 carry out the preformed unit 10, carry out the rotation with preformed unit 10 when carrying out the mould 11, take down the preformed unit 11, take place the preformed unit 11 after the preformed unit 10, take place the preformed unit 11, take the preformed unit 11 after the mould 11 is carried out, take down when the preformed unit 10, take down the preformed unit 11 and take place, take place the preformed unit 11, take the convenience, take place, take the preformed unit 10, and take the preformed unit 10, after step has been moved, and put by the preformed unit 10, and put by the method.

In the description of the present invention, it should be understood that the directions or positional relationships indicated by the terms "front and rear", "left and right", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of description and simplification of the description, and do not indicate or imply that the apparatus or component in question must have a specific orientation, be constructed and operated in a specific orientation, and therefore should not be construed as limiting the invention.

Of course, in this disclosure, those skilled in the art will understand that the term "a" or "an" is to be interpreted as "at least one" or "one or more," i.e., in one embodiment, the number of elements may be one, and in another embodiment, the number of elements may be multiple, and the term "a" is not to be construed as limiting the number.

While the invention has been described with reference to the preferred embodiments, it should be noted that the invention is not limited to the above embodiments, and that various changes and modifications can be made by those skilled in the art without departing from the structure of the invention, and these should also be regarded as the scope of the invention without affecting the effect and practicality of the implementation of the invention.

Claims (10)

1. The utility model provides an automatic drawing of patterns equipment of prefab, includes base (1), its characterized in that: be provided with rotating assembly (2) on base (1), be provided with a plurality of molding cavity (3) on rotating assembly (2), be provided with fixed subassembly (4) on base (1), be provided with on fixed subassembly (4) and beat subassembly (5) and auxiliary assembly (6) that set up on beating subassembly (5) rotation route, be provided with on molding cavity (3) clamping assembly (7) and guide assembly (8) that set up on clamping assembly (7) rotation route, be provided with unloading subassembly (9) on fixed subassembly (4), rotating assembly (2) are used for driving prefab mould (10) and prefab (11) and rotate, beat subassembly (5) and be used for beating prefab mould (10) under the cooperation of auxiliary assembly (6), clamping assembly (7) are used for pressing from both sides prefab mould (10) under the cooperation of guide assembly (8), unloading subassembly (9) are used for carrying out the unloading to prefab (11).

2. An automated preform demolding apparatus according to claim 1, wherein: the rotating assembly (2) comprises a motor (21), a rotating rod (22) rotatably arranged on the base (1) and a rotary table (23) fixedly arranged on the rotating rod (22), and an output shaft of the motor (21) is connected with the rotating rod (22) through a belt.

3. An automated preform demolding apparatus according to claim 2, wherein: the fixed subassembly (4) is including fixed disk (41) that set up on base (1), fixed dead lever (42) and the fixed chassis (43) that set up on dead lever (42) of setting in dwang (22), fixed disk (41) pass dwang (22) and laminate mutually with carousel (23) lower surface, chassis (43) laminate mutually with carousel (23) upper surface.

4. A preform automated demolding apparatus according to claim 3, wherein: the knocking assembly (5) comprises a plurality of knocking rods (51) which are rotatably arranged on the chassis (43), knocking heads (52) which are fixedly arranged on the knocking rods (51) and first springs (53) which are connected between the knocking rods (51) and the chassis (43), and the knocking heads (52) are matched with the prefabricated part die (10).

5. An automated preform demolding apparatus according to claim 4, wherein: the auxiliary assembly (6) comprises a knocking column (61) fixedly arranged on the knocking rod (51) and a boss (62) fixedly arranged on the rotary table (23), the surface of the boss (62) is of a wavy structure, and the bottom end of the knocking column (61) is spherical and matched with the boss (62).

6. An automated preform demolding apparatus according to claim 2, wherein: the clamping assembly (7) comprises a through groove (71) formed in the rotary disc (23), a telescopic rod (72) arranged in the through groove (71) in a sliding mode, a clamping plate (73) arranged on the telescopic rod (72) in a sliding mode, and a guide post (74) fixedly arranged on the clamping plate (73), wherein the clamping plate (73) is in butt fit with the prefabricated member model (10), the bottom of the guide post (74) is spherical, and a second spring (75) is arranged between the clamping plate (73) and the telescopic rod (72).

7. An automated preform demolding apparatus according to claim 6, wherein: the guide assembly (8) comprises a guide rail (81) fixedly arranged on a fixed disc (41) and a chassis (43) and a sliding groove (82) formed in the guide rail (81), the guide rail (81) comprises an ascending section (12) and a descending section (13), the sliding groove (82) comprises a contraction section (14) and an expansion section (15), and the bottom end of the guide column (74) is matched with the sliding groove (82).

8. A preform automated demolding apparatus according to claim 3, wherein: the blanking assembly (9) comprises a blanking opening (91) formed in the fixed disc (41) and a conveying belt (92) arranged below the blanking opening (91), and the blanking opening (91) is matched with the prefabricated member (11).

9. An automated preform demolding apparatus according to claim 6, wherein: the splint (71) is provided with a soft cushion.

10. An automated preform demolding apparatus according to claim 4, wherein: the knocking head (52) is made of flexible silica gel materials.