CN214110802U - A high-efficient hydraulic press mould for resistant firebrick production - Google Patents

Abstract

The utility model relates to the technical field of refractory brick production equipment, in particular to a high-efficiency hydraulic press die for refractory brick production, which comprises a hydraulic die cover plate, a hydraulic die shell, a hydraulic die bottom plate and a hydraulic die weighing support platform, wherein the hydraulic die cover plate can be inserted inside the hydraulic die shell, the hydraulic die shell can be inserted on the hydraulic die bottom plate, and the hydraulic die bottom plate can be inserted on the hydraulic die weighing support platform; a plurality of adaptive through holes are uniformly formed in the hydraulic die cover plate; the hydraulic die shell comprises a first die shell and a second die shell, wherein first inserting through holes are formed in the side wing of the first die shell and the side wing of the second die shell, and a first inserting fixing pin body is inserted in each first inserting through hole. The utility model discloses a high-efficient hydraulic press mould for resistant firebrick production can guarantee the homogeneity of suppression, and then improves suppression efficiency.

Description

A high-efficient hydraulic press mould for resistant firebrick production

Technical Field

The utility model relates to a resistant firebrick production facility technical field, in particular to a high-efficient hydraulic press mould for resistant firebrick production.

Background

Refractory bricks generally refer to refractory materials of a certain shape and size that are fired from chamotte or other refractory material. The refractory brick is mainly used for bricking smelting furnaces and can resist the high temperature of 1580-1770 ℃. The refractory bricks need to be simply pre-pressed before being fired so as to ensure the strength of the fired refractory bricks, the uniformity of pressing cannot be ensured in the pre-pressing process in the prior art, and the refractory bricks which are not uniformly pressed need to be crushed and pressed again, so that the pressing efficiency is reduced.

SUMMERY OF THE UTILITY MODEL

The utility model aims at: for the homogeneity of guaranteeing the suppression, and then improve suppression efficiency, the utility model provides a high-efficient hydraulic press mould for resistant firebrick production.

In order to achieve the above purpose, the technical scheme of the utility model is as follows:

a high-efficiency hydraulic press die for refractory brick production comprises a hydraulic die cover plate, a hydraulic die shell, a hydraulic die bottom plate and a hydraulic die weighing support platform, wherein the hydraulic die cover plate can be inserted into the hydraulic die shell, the hydraulic die shell can be inserted into the hydraulic die bottom plate, and the hydraulic die bottom plate can be inserted into the hydraulic die weighing support platform;

a plurality of adaptive through holes are uniformly formed in the hydraulic die cover plate;

the hydraulic die shell comprises a first die shell and a second die shell, wherein first inserting through holes are formed in a side wing of the first die shell and a side wing of the second die shell, a first inserting fixing pin body is inserted into the first inserting through hole, a second inserting through hole is formed in the first inserting fixing pin body, and a second inserting fixing pin body is inserted into the second inserting through hole;

a first clamping belt body extends upwards from the peripheral side of the hydraulic die bottom plate, and a plurality of core dies are vertically and upwards fixed at the bottom of the hydraulic die bottom plate;

the week side of hydraulic mould supporting bench of weighing upwards extends has a second joint area body, just installs a plurality of gravity sensor on the hydraulic mould supporting bench of weighing the vibrating motor is installed to the below of hydraulic mould supporting bench of weighing.

As an improvement: the hydraulic die cover plate is further provided with a groove body for compression, and the hydraulic die cover plate is symmetrically provided with lifting and pressing handles.

As an improvement: the radius of the adaptation through hole is larger than that of the core mold.

To sum up, the utility model discloses following beneficial effect has:

when the refractory bricks are produced, firstly, the refractory brick materials are poured into the die shell, the gravity sensor senses the weight of the current materials in real time, when the weight of the materials reaches the materials required by the refractory bricks, the pouring is stopped immediately, so that the purpose of saving the materials is achieved, in addition, the weight of each refractory brick material and the uniformity of the thickness, the density and the like after compression can also be ensured, then, the hydraulic die cover plate is covered, the vibrating motor at the bottom of the hydraulic die weighing support platform is started for vibrating the materials, so that the refractory brick materials are uniformly paved in the hydraulic die bottom plate and the die shell, the stress uniformity during the pre-pressing is ensured, then, the hydraulic die cover plate is covered, the hydraulic die head is aligned to the groove body for compression, in the compression process, the gravity sensor senses the current gravity in real time, when the preset gravity value is reached, the down-pressing is stopped, thereby ensuring that each refractory brick is subjected to the same pressure when being pre-pressed.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings used in the embodiments or the description of the prior art will be briefly described below.

FIG. 1 is a schematic overall structure diagram of a high-efficiency hydraulic press mold for refractory brick production;

wherein: 1. a hydraulic die cover plate; 2. a first mold housing; 3. a second mold housing; 4. a hydraulic die base plate; 5. a hydraulic die weighing support table; 6. adapting the through hole; 7. the first inserting fixed pin body; 8. the second plug-in fixing pin body; 9. a first clamping belt body; 10. a core mold; 11. the second belt body is clamped; 12. a gravity sensor; 13. a vibration motor; 14. a groove body for compression; 15. the handle is lifted and pressed.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1, a high-efficiency hydraulic mold for refractory brick production comprises a hydraulic mold cover plate 1, a hydraulic mold shell, a hydraulic mold bottom plate 4 and a hydraulic mold weighing support table 5, wherein the hydraulic mold cover plate 1 can be inserted into the hydraulic mold shell, the hydraulic mold shell can be inserted into the hydraulic mold bottom plate 4, and the hydraulic mold bottom plate 4 can be inserted into the hydraulic mold weighing support table 5;

a plurality of adaptive through holes 6 are uniformly formed in the hydraulic die cover plate 1;

the hydraulic mould shell comprises a first mould shell 2 and a second mould shell 3, wherein a first inserting through hole is formed in each of a side wing of the first mould shell 2 and a side wing of the second mould shell 3, a first inserting fixing pin body 7 is inserted into the first inserting through hole, a second inserting through hole is formed in the first inserting fixing pin body 7, and a second inserting fixing pin body 8 is inserted into the second inserting through hole;

a first clamping belt body 9 extends upwards on the peripheral side of the hydraulic die bottom plate 4, and a plurality of core dies 10 are vertically and upwards fixed at the bottom of the hydraulic die bottom plate 4;

the side of week at hydraulic mould supporting bench 5 that weighs upwards extends has a second joint area body 11, and installs a plurality of gravity sensor 12 on hydraulic mould supporting bench 5 that weighs, installs vibrating motor 13 in the below of hydraulic mould supporting bench 5 that weighs.

A groove body 14 for compression is further arranged on the hydraulic die cover plate 1, the hydraulic die cover plate 1 is symmetrically provided with lifting and pressing handles 15, and the radius of the adaptive through hole 6 is larger than that of the core die 10.

The working process is as follows: when the refractory bricks are produced, firstly, the refractory brick materials are poured into the mould shell, the gravity sensor 12 senses the weight of the current materials in real time, when the weight of the materials reaches the materials required by the refractory bricks, the pouring is stopped immediately, so that the purpose of saving the materials is achieved, in addition, the weight of each refractory brick material and the uniformity of the thickness, the density and the like after compression can also be ensured, then, the hydraulic mould cover plate 1 is covered, the vibrating motor 13 at the bottom of the hydraulic mould weighing support table 5 is started for vibrating the materials, so that the refractory brick materials are uniformly paved on the hydraulic mould bottom plate 4 and the inside of the mould shell, the stress uniformity during the pre-pressing is ensured, then, the hydraulic mould cover plate 1 is covered, the hydraulic machine rod head is aligned with the groove body 14 for compression, in the compression process, the gravity sensor 12 senses the current gravity in real time, when the preset gravity value is reached, the pressing is stopped, thereby ensuring that each refractory brick is subjected to the same pressure when being pre-pressed.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention and not to limit it; although the present invention has been described in detail with reference to preferred embodiments, those skilled in the art will appreciate that; the invention can be modified or equivalent substituted for some technical features; without departing from the spirit of the present invention, it should be understood that the scope of the claims is intended to cover all such modifications and variations.

Claims (3)

1. A high-efficiency hydraulic press die for refractory brick production is characterized by comprising a hydraulic die cover plate, a hydraulic die shell, a hydraulic die bottom plate and a hydraulic die weighing support platform, wherein the hydraulic die cover plate can be inserted into the hydraulic die shell, the hydraulic die shell can be inserted into the hydraulic die bottom plate, and the hydraulic die bottom plate can be inserted into the hydraulic die weighing support platform;

a plurality of adaptive through holes are uniformly formed in the hydraulic die cover plate;

the hydraulic die shell comprises a first die shell and a second die shell, wherein first inserting through holes are formed in a side wing of the first die shell and a side wing of the second die shell, a first inserting fixing pin body is inserted into the first inserting through hole, a second inserting through hole is formed in the first inserting fixing pin body, and a second inserting fixing pin body is inserted into the second inserting through hole;

a first clamping belt body extends upwards from the peripheral side of the hydraulic die bottom plate, and a plurality of core dies are vertically and upwards fixed at the bottom of the hydraulic die bottom plate;

the week side of hydraulic mould supporting bench of weighing upwards extends has a second joint area body, just installs a plurality of gravity sensor on the hydraulic mould supporting bench of weighing the vibrating motor is installed to the below of hydraulic mould supporting bench of weighing.

2. The efficient hydraulic press mold for producing refractory bricks as claimed in claim 1, wherein the hydraulic mold cover plate is further provided with a groove body for compression, and the hydraulic mold cover plate is symmetrically provided with lifting and pressing handles.

3. A high efficiency hydraulic press mold for refractory brick production as claimed in claim 1 wherein the radius of the fitting through hole is greater than the radius of the core mold.

Images