CN213434347U - Automatic batching and feeding device for sealing sheet production - Google Patents

Abstract

The utility model provides a gasket production automatic blending feed arrangement relates to gasket production technical field. The utility model discloses the reation kettle both sides are equipped with first second support respectively, the brace table side on the first support is equipped with first workbin, first workbin and brace table top surface coplanar, first workbin bottom slides and is equipped with the slide, brace table and first workbin top surface slide and are equipped with first blowing case, screw conveyer is to first blowing case material loading, be equipped with the second blowing case on the second support, second blowing case outer wall is equipped with the heat preservation cavity, second blowing case lower part is equipped with the second blowing case rather than the intercommunication, first blowing case lower part is equipped with rather than the first inlet pipe that feeds through with reation kettle, second blowing case one end is equipped with rather than the second inlet pipe that feeds through with reation kettle, all rotate in first inlet pipe and the second blowing case and be equipped with the feeding screw rod, first blowing top surface is equipped with rather than sliding connection's apron, the apron tip is connected with first blowing case.

Description

Automatic batching and feeding device for sealing sheet production

Technical Field

The utility model relates to a gasket production technical field, concretely relates to gasket production automatic blending feed arrangement.

Background

The sealing sheet is a sealing spare part used for machines, equipment and pipelines as long as the parts have fluid, and is made of materials with sealing functions on the inner part and the outer part. Can be divided into a metal sealing gasket and a non-metal sealing gasket according to the material, and the non-metal sealing gasket comprises a composite material.

At present, the production of combined material gasket needs to add resin and other materials into reation kettle and stir the mixture, and the unloading volume of resin will be controlled, generally for the manual work prepares burden to artifical unloading, not only work efficiency is low, and operation personnel intensity of labour is big, and the unloading volume is difficult to control more accurately, makes the batching operation effect relatively poor.

Disclosure of Invention

The utility model aims at developing a gasket production automatic blending feed arrangement who improves unloading efficiency, automatic blending and unloading.

The utility model discloses a following technical scheme realizes:

automatic batching and feeding device for gasket production, comprising a reaction kettle, wherein a first support is arranged on one side of the reaction kettle, a support table is arranged on the first support, a first blanking box is arranged on the side surface of the support table, the top surface of the first blanking box and the top surface of the support table are coplanar, a sliding plate is arranged at the bottom of the first blanking box in a sliding manner, a first discharging box is arranged on the support table and the top surface of the first blanking box in a sliding manner, a spiral conveyor is arranged on the side surface of the reaction kettle and is used for feeding materials to the first discharging box, a second support is arranged on the other side of the reaction kettle, a second discharging box is arranged on the second support, a heat-insulating cavity is arranged on the outer wall of the second discharging box, high-temperature media circulate inside the heat-insulating cavity, a second blanking box is arranged on the second support at the lower part of the second discharging box and is communicated with the, first workbin bottom and first inlet pipe intercommunication, second workbin one end is equipped with the second inlet pipe rather than the intercommunication, second inlet pipe and reation kettle intercommunication, all rotate in first inlet pipe and the second workbin and be equipped with the feed screw, first workbin top surface is equipped with the apron rather than sliding connection, the apron tip is connected with first blowing case.

Optionally, the supporting tables on two sides of the first material placing box are respectively provided with an air cylinder connected with the first material placing box, and the air cylinders drive the first material placing box to slide.

Optionally, a linear sliding table is arranged at the bottom of the support table and is in transmission connection with the sliding plate.

Optionally, the first feeding pipe and the second feeding pipe are both arranged at an inclined angle, and the lower ends of the first feeding pipe and the second feeding pipe are communicated with the reaction kettle.

Optionally, a first feeding screw is arranged in the first feeding pipe in a rotating manner, and a first motor in transmission connection with the first feeding screw is correspondingly arranged on the side surface of the first feeding pipe.

Optionally, a second feeding screw is rotatably arranged in the second blanking box, and a second motor in transmission connection with the second feeding screw is correspondingly arranged on the side surface of the second blanking box.

Optionally, the second blanking box is in a circular truncated cone shape, the second feeding screw is in a circular truncated cone shape corresponding to the second blanking box in shape, and a layer of scraping plate in contact with the inner wall of the second blanking box is further arranged at the edge of the second feeding screw.

Optionally, the tip that the second workbin diameter is less communicates with the second inlet pipe, the second workbin sets up with the second inlet pipe coaxial line.

Optionally, a feeding pipe is arranged between the top of the second discharging box and the bottom of the second discharging box, and valves are arranged on the feeding pipe and the second feeding pipe.

Optionally, a plurality of support rods are arranged at the bottom of the screw conveyor, the support table is connected with the first support through a support component, the support table is enabled to be away from the first support by a certain distance, and a medium inlet and a medium outlet are formed in the outer wall of the heat-preservation cavity.

The utility model has the advantages that:

the utility model discloses can carry out unloading and batching automatically to but the unloading volume automatic control has not only improved the work efficiency of unloading operation, has reduced artifical intensity of labour, and the unloading volume is accurate, and the heat preservation cavity that has the high temperature medium can prevent that liquid resin from bonding and influencing the unloading volume.

Drawings

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

FIG. 1 is a view of the structure of the present invention;

FIG. 2 is a structural diagram of a first discharging box and a first discharging box;

fig. 3 is a structural view of a second feed box.

Detailed Description

In the following, only certain exemplary embodiments are briefly described. As those skilled in the art can appreciate, the described embodiments may be modified in various different ways, without departing from the spirit or scope of the invention. Accordingly, the drawings and description are to be regarded as illustrative in nature, and not as restrictive.

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

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

As shown in figures 1-3, the utility model discloses an automatic batching and feeding device for gasket production, which comprises a reaction kettle 1, wherein a first support 2 is arranged on one side of the reaction kettle 1, a support platform 8 is arranged on the first support 2, a first blanking box 6 is arranged on the side surface of the support platform 8, the top surface of the first blanking box 6 is coplanar with the top surface of the support platform 8, a sliding plate 11 is arranged at the bottom of the first blanking box 6 in a sliding manner, a first blanking box 7 is arranged on the top surfaces of the support platform 8 and the first blanking box 6 in a sliding manner, a spiral conveyor 13 is arranged on the side surface of the reaction kettle 1, the spiral conveyor 13 feeds the first blanking box 7, a second support 16 is arranged on the other side of the reaction kettle 1, a second blanking box 17 is arranged on the second support 16, a heat preservation cavity 18 is arranged on the outer wall of the second blanking box 17, high-temperature medium circulates in the heat preservation cavity, a second blanking, second workbin 19 and second workbin 17 intercommunication, be equipped with the first inlet pipe 3 with reation kettle 1 intercommunication on the first support 2 of 6 lower parts of first workbin, 6 bottoms of first workbin and first inlet pipe 3 intercommunication, 19 one end of second workbin are equipped with the second inlet pipe 20 rather than the intercommunication, second inlet pipe 20 and reation kettle 1 intercommunication, all rotate in first inlet pipe 3 and the second workbin 19 and be equipped with the feeding screw rod, 6 top surfaces of first workbin are equipped with rather than sliding connection's apron 10, apron 10 tip and first workbin 7 are connected.

In an embodiment of this application, reation kettle 1 one side upper portion is equipped with first inlet pipe 3, the certain angle setting of first inlet pipe 3 slope, the lower end and reation kettle 1 intercommunication of first inlet pipe 3, first inlet pipe 3 lower part is equipped with first support 2, be equipped with the supporting shoe between first support 2 and the first inlet pipe 3, the internal rotation of first inlet pipe 3 is equipped with first feeding screw 4, the tip of first inlet pipe 3 is equipped with first motor 5 of being connected with first feeding screw 4 transmission, first motor 5 has reduction gears, first feeding screw 4 of motor 5 drive rotates.

Be equipped with brace table 8 on first support 2, be connected through the supporting component between brace table 8 and first support 2, make brace table 8 apart from first support 2 certain distance, the side that brace table 8 is close to reation kettle 1 is equipped with first workbin 6, first workbin 6 is the rectangular bodily form, and the cavity in first workbin 6 also is the rectangular bodily form, the top surface of first workbin 6 and brace table 8's top surface coplanar, first workbin 6 top surface and bottom surface all are open structure, first workbin 6 bottom slides and is equipped with slide 11, slide 11 horizontal arrangement is in first workbin 6 bottom, first workbin 6 bottom is equipped with the feeder hopper that communicates with first 3 top, the bottom surface of brace table 8 is higher than the inlet pipe bottom surface of first workbin 6, brace table 8 bottom surface is equipped with sharp slip table 12, the tip and the executive component of sharp slip table 12 of slide 11 are connected, linear sliding table 12 can drive slide 11 as the driving source and slide in first workbin 6 bottom, makes first workbin 6 and feeder hopper intercommunication or makes first workbin 6 isolated with the feeder hopper.

The top surface of the supporting table 8 is provided with a first discharging box 7 in a sliding manner, the first discharging box 7 is also in a rectangular shape, the top surface and the bottom surface of the first discharging box 7 are also in an open structure, the inner cavity of the first discharging box 7 is in a rectangular shape, the length and the width of the inner cavity of the first discharging box are the same as those of the inner cavity of the first discharging box 6, the first discharging box 7 is higher than the first discharging box 6, so that the raw materials contained in the first discharging box 7 can be more than those in the first discharging box 6, the tops of the two side walls of the first discharging box 6 connected with the supporting table 8 are provided with sliding rails, the sliding rails are arranged along the top surface of the side wall of the first discharging box 6 and extend to the top surface of the supporting table 8, the bottom surfaces of the two corresponding side walls of the first discharging box 7 are provided with sliding blocks matched with the sliding rails and connected with the sliding blocks, so that the first discharging box 7 can slide, because solid resin is solid-state particles, has certain particle diameter, and laminating bottom first workbin 7 and brace table 8 top surface, clearance between them is little for first workbin 7 is at the removal in-process, and solid resin can not fall out, first workbin 6 top surface still slides and is equipped with apron 10, apron 10 covers whole first workbin 6 open-top, apron 10 bottom corresponds and is equipped with the slider with slide rail cooperation and sliding connection, the tip that reation kettle 1 was kept away from to apron 10 is connected with first workbin 7, and first workbin 7 slides on brace table 8 and first workbin 6 in-process, and first workbin 7 drives apron 10 and slides at first workbin 6 top, makes apron 10 seal the part that first workbin 6 open-top did not communicate with first workbin 7, be equipped with cylinder 9 on the brace table 8 of first workbin 7 both sides respectively, the bottom that first blowing case 7 corresponds the lateral wall is equipped with the connecting block, the connecting block is connected with the piston rod of cylinder 9, and cylinder 9 slides as the first blowing case 7 of driving source drive.

Still be equipped with screw conveyer 13 to reation kettle 1 side, screw conveyer 13 includes the material loading pipe, the material loading pipe slope sets up, material loading socle portion is equipped with a plurality of bracing pieces 14, material loading socle portion extends to first blowing case 7 upper portion, material loading socle portion is equipped with the material loading mouth, the material loading internal rotation is equipped with the material loading screw rod, material loading socle portion correspondence is equipped with the third motor 15 of being connected with the material loading screw rod transmission, and third motor 15 has reduction gears, and when first blowing case 7 slided completely to brace table 8, the material delivery outlet at material loading socle portion is located first blowing case 7 upper portion, and the material falls into the material loading intraductal by the material loading mouth, and third motor 15 drives and transports the material into in first blowing case 7.

A second feeding pipe 20 is arranged on the upper portion of the other side of the reaction kettle 1, the second feeding pipe 20 is also inclined at a certain angle, the lower end of the second feeding pipe 20 is connected with the reaction kettle 1, and a valve is arranged in the second feeding pipe 20.

The side that reation kettle 1 was equipped with second inlet pipe 20 corresponds and is equipped with second support 16, be equipped with second blowing case 17 on the second support 16, be equipped with one deck heat preservation cavity 18 on the outer wall of second blowing case 17, heat preservation cavity 18 surrounds second blowing case 17, it is equipped with medium entry and medium export to correspond on the 18 outer walls of heat preservation cavity, through medium entry and medium export have certain temperature to the medium of heat preservation cavity 18 inner loop input, for example the conduction oil, heat second blowing case 17, make the resin in the second blowing case 17 keep certain temperature.

Be equipped with second workbin 19 on the second support 16 of second workbin 17 lower part, second workbin 19 is the round platform shape, the less tip of second workbin 19 diameter and second inlet pipe 20 intercommunication, second workbin 19 sets up with second inlet pipe 20 coaxial line, and consequently second workbin 19 also inclines to set up, be equipped with conveying pipe 22 between the higher end top of second workbin 19 and second workbin 17 bottom, the correspondence is equipped with the valve on the conveying pipe 22.

The internal rotation of second workbin 19 is equipped with second feeding screw 23, second feeding screw 23 sets up with second workbin 19 coaxial line, the great tip side of second workbin 19 diameter corresponds and is equipped with the second motor 21 of being connected with second feeding screw 23 transmission, second feeding screw 23 is shape and second workbin 19 complex round platform shape, the edge of second feeding screw 23 is equipped with the one deck doctor-bar, doctor-bar and second workbin 19's inner wall contact, second feeding screw 23 is changeing the in-process, and the doctor-bar at second feeding screw 23 edge constantly scrapes the inner wall of second workbin 19.

The solid resin enters the spiral conveyor 13 from the feeding port and is conveyed to the first discharging box 7, the cylinder 9 drives the first discharging box 7 to slide to the top of the first discharging box 6, the solid resin in the first discharging box 7 fills the whole first discharging box 6, the depth of the first discharging box 6 can be set according to the feeding amount, then the cylinder 9 drives the first discharging box 7 to slide to the supporting platform 8, in the process, the cover plate 10 slides along with the first discharging box 7 to prevent the material in the first discharging box 6 from being stacked high and prevent the material in the first discharging box 6 from falling out, after the first discharging box 7 is reset, the cover plate 10 completely covers the first discharging box 6, at the moment, the first discharging box 6 is filled with the solid resin, the discharging amount of the solid resin is fixed, the linear sliding platform 12 drives the sliding plate 11 to slide, the solid resin in the first discharging box 6 enters the first feeding pipe 3, the first motor 5 runs, the first feed screw 4 is caused to feed the solid resin into the reaction tank 1. Heat conducting oil with a certain temperature is input into the heat preservation cavity 18 at the periphery of the second discharging box 17, so that the temperature of the liquid resin in the second discharging box 17 is kept within a certain range, the liquid resin is prevented from being bonded, the valve of the feeding pipe 22 is opened, the liquid resin enters the second discharging box 19, the volume of the second discharging box 19 is set according to the discharging amount, after the liquid resin is filled in the whole second discharging box 19, the valve of the feeding pipe 22 is closed, the valve of the second feeding pipe 20 is opened, the second motor 21 is operated, the second feeding screw 23 is operated, the liquid resin attached to the inner wall of the second discharging box 19 is scraped by a scraping blade, and all the liquid resin in the second discharging box 19 enters the second feeding pipe 20 and enters the reaction kettle 1.

The utility model discloses can carry out unloading and batching automatically to but the unloading volume automatic control has not only improved the work efficiency of unloading operation, has reduced artifical intensity of labour, and the unloading volume is accurate, and the heat preservation cavity 18 that has the high temperature medium can prevent that liquid resin from bonding and influencing the unloading volume.

The above-mentioned embodiment is only the preferred embodiment of the present invention, and is not to the limitation of the technical solution of the present invention, as long as the technical solution can be realized on the basis of the above-mentioned embodiment without creative work, all should be regarded as falling into the protection scope of the right of the present invention.

Claims (10)

1. Gasket production automatic blending feed arrangement, its characterized in that includes:

a reaction kettle;

the first bracket is arranged on one side of the reaction kettle;

the supporting table is arranged on the first bracket;

the first blanking box is arranged on the side surface of the support table, the top surface of the first blanking box is coplanar with the top surface of the support table, and a sliding plate is arranged at the bottom of the first blanking box in a sliding manner;

the first discharging box is arranged on the supporting platform and the top surface of the first discharging box in a sliding manner;

the spiral conveyor is arranged on the side surface of the reaction kettle and used for feeding materials to the first material discharge box;

the second bracket is arranged on the other side of the reaction kettle;

the second discharging box is arranged on the second bracket;

the heat preservation cavity is arranged on the outer wall of the second discharging box, and a high-temperature medium circulates in the heat preservation cavity;

the second discharging box is arranged on a second support at the lower part of the second discharging box and is communicated with the second discharging box;

wherein, be equipped with the first inlet pipe with the reation kettle intercommunication on the first support of first workbin lower part, first workbin bottom and first inlet pipe intercommunication, second workbin one end is equipped with the second inlet pipe rather than the intercommunication, second inlet pipe and reation kettle intercommunication, all rotate in first inlet pipe and the second workbin and be equipped with the feed screw, first workbin top surface is equipped with the apron rather than sliding connection, the apron tip is connected with first blowing case.

2. The automatic batching and feeding device for the sealing strip production according to claim 1, characterized in that the supporting platforms at two sides of the first discharging box are respectively provided with a cylinder connected with the first discharging box, and the cylinders drive the first discharging box to slide.

3. The automatic blending and feeding device for the sealing sheet production according to claim 2, wherein a linear sliding table is arranged at the bottom of the supporting table and is in transmission connection with a sliding plate.

4. The automatic ingredient feeding device for the production of the sealing sheet according to claim 3, wherein the first feeding pipe and the second feeding pipe are arranged at an angle, and the lower ends of the first feeding pipe and the second feeding pipe are communicated with the reaction kettle.

5. The automatic blending and feeding device for the sealing sheet production according to claim 4, wherein a first feeding screw is rotatably arranged in the first feeding pipe, and a first motor in transmission connection with the first feeding screw is correspondingly arranged on the side surface of the first feeding pipe.

6. The automatic blending and feeding device for the sealing sheet production according to claim 5, wherein a second feeding screw is rotatably arranged in the second blanking box, and a second motor in transmission connection with the second feeding screw is correspondingly arranged on the side surface of the second blanking box.

7. The automatic blending and feeding device for the sealing sheet production according to claim 6, wherein the second blanking box is in a circular truncated cone shape, the second feeding screw is in a circular truncated cone shape corresponding to the second blanking box in shape, and a layer of scraping plate in contact with the inner wall of the second blanking box is further arranged on the edge of the second feeding screw.

8. The automatic ingredient feeding device for the production of sealing strip according to claim 7, characterized in that the end with smaller diameter of the second blanking box is communicated with the second feeding pipe, and the second blanking box and the second feeding pipe are arranged coaxially.

9. The automatic blending and feeding device for the sealing strip production according to claim 8, wherein a feeding pipe is arranged between the top of the second discharging box and the bottom of the second discharging box, and valves are arranged on the feeding pipe and the second feeding pipe.

10. The automatic blending and feeding device for the sealing piece production according to claim 9, wherein a plurality of support rods are arranged at the bottom of the screw conveyor, the support platform is connected with the first support through a support component, the support platform is spaced from the first support, and a medium inlet and a medium outlet are arranged on the outer wall of the heat preservation cavity.

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