CN210453455U - Pouring gland mechanism used in production of foam composite boards - Google Patents

Abstract

The utility model discloses a pouring gland mechanism that uses in foam composite sheet production, belong to panel production facility technical field, the mould shell of mould is placed on conveying mechanism, the upper cover of mould is placed on the mould shell, conveying mechanism includes frame type frame and sets up the delivery wheel in the frame type frame left and right sides, gland mechanism is including setting up the support frame at conveying mechanism outlying frame type, the lift actuating mechanism of setting on the support frame, and set up the climbing mechanism in lift actuating mechanism below, lift actuating mechanism's upper end and support frame fixed connection, the lower extreme is fixed with the bottom beam, the mould shell separates with the help of climbing mechanism and conveying mechanism, the bottom beam forms the bottom mechanism of upper cover with the help of lift actuating mechanism and upper cover contact and with the help of lift actuating mechanism's holding down force. The mechanical operation saves time and labor, all parts of the upper cover are evenly stressed, and the quality of products can be improved. When the mould shell is pressed down, the mould shell is separated from the conveying mechanism, so that the conveying mechanism can be prevented from being influenced by the downward pressure.

Description

Pouring gland mechanism used in production of foam composite boards

Technical Field

The utility model belongs to the technical field of panel production facility, a capping mechanism, especially a pouring capping mechanism who uses in the foam composite sheet production is related to.

Background

The foam composite board belongs to a light composite board, has the effects of good heat preservation, light weight, water resistance and the like, and is applied to a plurality of production fields. In recent years, with the upgrading and reconstruction of the building industry, the foam composite board is widely used in the heat insulation technology of floor slabs or wall boards, including the heat insulation of inner walls and outer walls. In the process of producing the foam composite board, after slurry is sprayed into the mould shell, the upper cover needs to be pressed, and then the mould shell is conveyed into a curing warehouse for curing, so that the foam composite board is molded. Present gland is all accomplished by the manual work, because need make the upper cover produce certain pressure to the thick liquids in the die shell during the gland, so manual operation wastes time and energy, and it is even to hardly guarantee to make each part atress of upper cover moreover, will inevitably produce the influence to the quality of product like this.

Disclosure of Invention

The utility model discloses an overcome prior art's defect, designed a pouring gland mechanism of using in the foam composite sheet production, mechanized operation, labour saving and time saving, each partial atress of upper cover is even moreover, can improve the quality of product.

The utility model adopts the following specific technical proposal: the utility model provides a capping mechanism pours of using in foam composite sheet production, the mould shell of mould is placed on conveying mechanism, and the upper cover of mould is placed on the mould shell, and conveying mechanism includes frame type frame and sets up the delivery wheel in the frame type frame left and right sides, and the key lies in: the gland mechanism comprises a frame-shaped support frame arranged on the periphery of the conveying mechanism, a lifting driving mechanism arranged on the support frame and a jacking mechanism arranged below the lifting driving mechanism, the upper end of the lifting driving mechanism is fixedly connected with the support frame, the lower end of the lifting driving mechanism is fixedly provided with a pressing cross beam, the formwork is separated from the conveying mechanism by virtue of the jacking mechanism, and the pressing cross beam is in contact with the upper cover by virtue of the lifting driving mechanism and forms a pressing mechanism of the upper cover by virtue of the pressing force of the lifting driving mechanism.

The jacking mechanism comprises at least two supporting beams arranged in parallel in the frame-shaped frame, an air bag fixed below each supporting beam and an inflating device connected with an air inlet of the air bag, and the supporting beams have lifting freedom degrees by means of expansion or contraction of the air bag.

All be provided with two at least gasbags along length direction below every supporting beam, the bottom of every gasbag all is fixed with the bottom sprag board, the top all is fixed with the backup pad, is fixed with a set of direction telescopic link between bottom sprag board and last backup pad, and all direction telescopic links all are located the periphery of gasbag.

The length direction of supporting beam sets up along the left-right direction, and all supporting beam arrange along the fore-and-aft direction, and the length direction of pushing down the crossbeam sets up along the fore-and-aft direction, all is fixed with the under bracing base bottom every under bracing board, is located the adjacent under bracing base fixed connection of same supporting beam below.

An upper supporting base is fixed above each upper supporting plate, and the supporting beam is positioned above the upper supporting base and is fixedly connected with the upper supporting base by means of the matching of bolts and nuts.

The number of the supporting beams is two, each supporting beam comprises two I-shaped steels arranged in the front-back direction, and the length directions of the I-shaped steels are arranged in the left-right direction.

The lifting driving mechanism comprises a lifting driving source fixed at the top of the support frame, a group of guide pillars vertically fixed in the support frame and a movable frame forming sliding fit with the guide pillars by means of a sliding sleeve, the output end of the lifting driving source is fixedly connected with the movable frame, the movable frame is fixedly connected with the pressing cross beam by means of a connecting rod, and the pressing cross beam has lifting freedom degree by means of driving of the lifting driving source.

The lower ends of the guide columns positioned on the same side of the conveying mechanism are fixedly connected with the same fixed frame, and the fixed frame is fixedly connected with the supporting frame.

The movable frame is a rectangular frame, and each corner of the rectangular frame is provided with a guide pillar.

The number of the pressing cross beams is two, the two pressing cross beams are arranged in bilateral symmetry below the movable frame, and the length directions of the pressing cross beams are arranged along the front-back direction.

The utility model has the advantages that: when the formwork with the upper cover is conveyed to the position right below the lower pressing beam by the conveying mechanism, the formwork is jacked up by the jacking mechanism to enable the formwork to be separated from the conveying mechanism, the lower pressing beam is driven to descend by the lifting driving mechanism, the lower pressing beam is driven by the lifting driving mechanism to continue descending after the lower pressing beam is contacted with the upper cover placed on the formwork, the upper cover generates certain pressure on slurry in the formwork by the aid of the downward pressure of the lower pressing beam, the lifting driving mechanism stops acting after the lower pressing is in place, then the upper cover is locked and fixed with the formwork by the locking mechanism, the lower pressing beam is driven by the lifting driving mechanism to ascend to return to the initial position, meanwhile, the formwork is driven to descend by the jacking mechanism and returns to the initial position, the formwork is replaced on the conveying mechanism again, and then the conveying mechanism conveys the formwork to the next station. The mechanical operation, labour saving and time saving, each partial atress of upper cover is even moreover, can improve the quality of product. When the mould shell is pressed down, the mould shell is separated from the conveying mechanism, so that the conveying mechanism can be prevented from being influenced by the downward pressure.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a front view of the present invention.

Fig. 3 is a right side view of the present invention.

In the attached drawings, 1 represents a support frame, 2 represents a jacking mechanism, 2-1 represents a support cross beam, 2-2 represents an air bag, 2-3 represents a lower support plate, 2-4 represents an upper support plate, 2-5 represents a guiding telescopic rod, 2-6 represents a lower support base, 2-7 represents an upper support base, 3 represents a lower pressing cross beam, 4 represents a guide post, 5 represents a fixed frame, 6 represents a movable frame, 7 represents a connecting rod, and 8 represents a lifting driving source.

Detailed Description

The present invention will be described in detail with reference to the following drawings and specific embodiments:

in a specific embodiment, as shown in fig. 1, 2 and 3, a pouring capping mechanism for use in the production of a foam composite board, a formwork of a mold is placed on a conveying mechanism, an upper cover of the mold is placed on the formwork, the conveying mechanism includes a frame and conveying wheels disposed on the left and right sides of the frame, the capping mechanism includes a frame support frame 1 disposed on the periphery of the conveying mechanism, a lifting driving mechanism disposed on the frame support frame 1, and a jacking mechanism 2 disposed below the lifting driving mechanism, the upper end of the lifting driving mechanism is fixedly connected with the frame support frame 1, the lower end of the lifting driving mechanism is fixed with a lower pressing beam 3, the formwork is separated from the conveying mechanism by the aid of the jacking mechanism 2, and the lower pressing beam 3 is contacted with the upper cover by the aid of the lifting driving mechanism and forms a lower pressing mechanism of the upper cover by the aid of the lower pressing force of.

As a further improvement of the utility model, the jacking mechanism 2 comprises at least two supporting beams 2-1 arranged in parallel inside the frame, an air bag 2-2 fixed below each supporting beam 2-1, and an inflating device connected with an air inlet of the air bag 2-2, and the supporting beams 2-1 have a lifting freedom degree by means of expansion or contraction of the air bag 2-2. When the die is conveyed to the position below the lower pressing beam 3, the air bag 2-2 is inflated by the inflating device, the air bag 2-2 expands to push the supporting beam 2-1 upwards, the supporting beam 2-1 jacks up the die shell placed on the conveying mechanism to separate the die shell from the conveying mechanism, then the lower pressing beam 3 descends to perform capping operation, after the upper cover is pressed in place, the upper cover and the die shell are locked and fixed by the locking structure, then the lower pressing beam 3 ascends to the initial position, the air bag 2-2 exhausts to the inflating device, the air bag 2-2 contracts, the supporting beam 2-1 descends to enable the die shell to descend synchronously, and when the air bag 2-2 recovers to the initial state, the die shell is placed on the conveying mechanism again and then conveyed to the next station. The lifting of the formwork is realized through the inflation and deflation of the air bag 2-2, the lifting process is stable, and the quality of products can be better ensured. The number of the supporting beams 2-1 is preferably two, each supporting beam 2-1 comprises two I-shaped steels arranged in the front-back direction, the length directions of the I-shaped steels are arranged in the left-right direction, the capping effect is good, the materials are convenient to obtain, and the cost is low.

As a further improvement of the utility model, at least two air bags 2-2 are arranged below each supporting beam 2-1 along the length direction, a lower supporting plate 2-3 is fixed at the bottom of each air bag 2-2, an upper supporting plate 2-4 is fixed at the top of each air bag 2-2, a group of guiding telescopic rods 2-5 are fixed between the lower supporting plate 2-3 and the upper supporting plate 2-4, and all the guiding telescopic rods 2-5 are positioned at the periphery of the air bags 2-2. The air bags 2-2 jointly play a role in supporting the formwork, so that the stress of the formwork is more balanced, and the influence on the product quality caused by the shaking of the formwork in the lifting process can be avoided. The upper supporting plate 2-4, the lower supporting plate 2-3 and the guiding telescopic rod 2-5 are matched to play a guiding role, so that the phenomenon that the air bag 2-2 shakes in the expansion or contraction process to cause the mould shell to shake is prevented, and the quality of products in the mould shell can be better ensured.

As shown in fig. 2 and 3, the supporting beams 2-1 are arranged along the left-right direction, all the supporting beams 2-1 are arranged along the front-back direction, the lower pressing beam 3 is arranged along the front-back direction, the bottom of each lower supporting plate 2-3 is fixed with a lower supporting base 2-6, and the adjacent lower supporting bases 2-6 under the same supporting beam 2-1 are fixedly connected. The supporting bases 2-6 are connected together, so that the overall stability is better. And the expansion lifting range of the air bag 2-2 can be reduced after the lower supporting base 2-6 is arranged, so that the cost can be saved. An upper supporting base 2-7 is fixed above each upper supporting plate 2-4, the supporting beam 2-1 is positioned above the upper supporting base 2-7 and is fixedly connected with the upper supporting base 2-7 by means of the matching of bolts and nuts, the disassembly and the assembly are convenient and fast, time and labor are saved, the expansion lifting range of the airbag 2-2 can be further reduced after the upper supporting base 2-7 is arranged, and the cost is further saved.

As right the utility model discloses a further improvement, lift actuating mechanism is including fixing lift driving source 8 at 1 top of support frame, vertical a set of guide pillar 4 of fixing in support frame 1 and forming sliding fit's movable frame 6 with the help of sliding sleeve and guide pillar 4, lift driving source 8's output and movable frame 6 fixed connection, movable frame 6 with the help of connecting rod 7 and 3 fixed connection of push down crossbeam, push down crossbeam 3 has the lift degree of freedom with the help of lift driving source 8's drive. The movable frame 6 goes up and down along the guide pillar 4, so that the lifting process is more stable, and the capping effect is better. As shown in fig. 3, the number of the push-down beams 3 is two, the two push-down beams 3 are arranged below the movable frame 6 in bilateral symmetry, and the length direction of the push-down beams 3 is arranged in the front-rear direction. The two pressing beams 3 act on the upper cover simultaneously, so that the stress of the upper cover is balanced, and the quality of a product can be better ensured.

The lower ends of the guide posts 4 positioned on the same side of the conveying mechanism are fixedly connected with the same fixed frame 5, and the fixed frame 5 is fixedly connected with the support frame 1. Utilize fixed frame 5 to fix the lower extreme of guide pillar 4 together with support frame 1, can avoid guide pillar 4 to rock, play the guide effect better, further improve the stability of pushing down crossbeam 3 at the lift in-process.

The movable frame 6 is a rectangular frame, and a guide pillar 4 is arranged at each corner of the rectangular frame. Four guide pillars 4 are the matrix and arrange for 6 atresss of movable frame are more balanced, can avoid rocking and influence the gland effect at the lift in-process.

When the utility model is used in concrete, after the mould hull with the upper cover is sent to the position under the lower beam 3 by the conveying mechanism, the air bag 2-2 is inflated by the inflating device, the air bag 2-2 expands to push the supporting beam 2-1 upwards, the supporting beam 2-1 jacks up the mould hull placed on the conveying mechanism, so that the mould hull is separated from the conveying mechanism, meanwhile, the lifting driving source is used to push the movable frame 6 to descend, the movable frame 6 pushes the lower beam 3 to descend through the connecting rod 7, after the lower beam 3 contacts with the upper cover placed on the mould hull, the movable frame 6 drives the lower beam 3 to continue descending, the upper cover generates a certain pressure on the slurry in the mould hull by the lower pressure of the lower beam 3, after the lower beam is pressed in place, the movable frame 6 stops acting, then the upper cover is locked and fixed with the mould hull by the locking structure, then the movable frame 6 drives the lower beam 3 to ascend to return to the initial position, meanwhile, the air bag 2-2 exhausts air to the inflating device, the air bag 2-2 contracts, the supporting beam 2-1 descends to enable the formwork to descend synchronously, the air bag 2-2 and the supporting beam 2-1 restore to the initial positions, the formwork is placed back on the conveying mechanism again, and then the formwork is conveyed to the next station by the conveying mechanism. When the mould shell is pressed down, the mould shell is separated from the conveying mechanism, so that the conveying mechanism can be prevented from being influenced by the downward pressure.

Claims (10)

1. The utility model provides a capping mechanism pours of using in foam composite sheet production, the mould shell of mould is placed on conveying mechanism, and the upper cover of mould is placed on the mould shell, and conveying mechanism includes frame type frame and sets up the delivery wheel in the frame type frame left and right sides, its characterized in that: the capping mechanism comprises a support frame (1) arranged on the periphery of the conveying mechanism, a lifting driving mechanism arranged on the support frame (1) and a jacking mechanism (2) arranged below the lifting driving mechanism, the upper end of the lifting driving mechanism is fixedly connected with the support frame (1), a lower end of the lifting driving mechanism is fixed with a lower pressing beam (3), the formwork is separated from the conveying mechanism by means of the jacking mechanism (2), and the lower pressing beam (3) is in contact with the upper cover by means of the lifting driving mechanism and forms a lower pressing mechanism of the upper cover by means of the lower pressing force of the lifting driving mechanism.

2. The pouring gland mechanism for producing the foam composite board according to claim 1, wherein the pouring gland mechanism comprises: the jacking mechanism (2) comprises at least two supporting cross beams (2-1) which are arranged in parallel in the frame-shaped frame, an air bag (2-2) fixed below each supporting cross beam (2-1) and an inflating device connected with an air inlet of the air bag (2-2), and the supporting cross beams (2-1) have lifting freedom degrees by means of expansion or contraction of the air bags (2-2).

3. The pouring gland mechanism for producing the foam composite board according to claim 2, wherein the pouring gland mechanism comprises: at least two air bags (2-2) are arranged below each supporting beam (2-1) along the length direction, a lower supporting plate (2-3) is fixed at the bottom of each air bag (2-2), an upper supporting plate (2-4) is fixed at the top of each air bag, a group of guiding telescopic rods (2-5) are fixed between the lower supporting plate (2-3) and the upper supporting plate (2-4), and all the guiding telescopic rods (2-5) are located on the periphery of the air bags (2-2).

4. The pouring gland mechanism for producing the foam composite board according to claim 3, wherein the pouring gland mechanism comprises: the length direction of the supporting beams (2-1) is arranged along the left-right direction, all the supporting beams (2-1) are arranged along the front-back direction, the length direction of the pressing beams (3) is arranged along the front-back direction, a lower supporting base (2-6) is fixed at the bottom of each lower supporting plate (2-3), and adjacent lower supporting bases (2-6) positioned below the same supporting beam (2-1) are fixedly connected.

5. The pouring gland mechanism for producing the foam composite board according to claim 3, wherein the pouring gland mechanism comprises: an upper supporting base (2-7) is fixed above each upper supporting plate (2-4), and the supporting beam (2-1) is positioned above the upper supporting base (2-7) and is fixedly connected with the upper supporting base (2-7) by means of the matching of bolts and nuts.

6. The pouring gland mechanism for producing the foam composite board according to claim 2, wherein the pouring gland mechanism comprises: the number of the supporting beams (2-1) is two, each supporting beam (2-1) comprises two I-shaped steels which are arranged in the front-back direction, and the length directions of the I-shaped steels are arranged in the left-right direction.

7. The pouring gland mechanism for producing the foam composite board according to claim 1, wherein the pouring gland mechanism comprises: the lifting driving mechanism comprises a lifting driving source (8) fixed at the top of the support frame (1), a group of guide pillars (4) vertically fixed in the support frame (1) and a movable frame (6) forming sliding fit with the guide pillars (4) through a sliding sleeve, the output end of the lifting driving source (8) is fixedly connected with the movable frame (6), the movable frame (6) is fixedly connected with the pressing cross beam (3) through a connecting rod (7), and the pressing cross beam (3) has lifting freedom degree through the driving of the lifting driving source (8).

8. The pouring gland mechanism for producing the foam composite board according to claim 7, wherein: the lower ends of the guide columns (4) positioned on the same side of the conveying mechanism are fixedly connected with the same fixed frame (5), and the fixed frame (5) is fixedly connected with the support frame (1).

9. The pouring gland mechanism for producing the foam composite board according to claim 7, wherein: the movable frame (6) is a rectangular frame, and each corner of the rectangular frame is provided with a guide pillar (4).

10. The pouring gland mechanism for producing the foam composite board according to claim 7, wherein: the number of the pressing cross beams (3) is two, the two pressing cross beams (3) are arranged in bilateral symmetry below the movable frame (6), and the length direction of the pressing cross beams (3) is arranged along the front-back direction.

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