CN219073532U - Microcrystalline thermal insulation mortar screening and filtering device - Google Patents

Abstract

The utility model discloses a microcrystalline thermal insulation mortar screening and filtering device, and relates to the technical field of constructional engineering. The utility model comprises a machine body and a processing structure, wherein the processing structure is movably connected inside the machine body; the organism includes grinding fixed plate, and processing structure includes buffer spring calandria, vibrator, driving motor and grinding movable plate, still is provided with the vibrator between the buffer spring calandria, and buffer spring calandria's rear still is provided with driving motor, and driving motor passes through shaft coupling and grinding movable plate fixed connection, and grinding movable plate sets up in grinding fixed plate's top. The utility model solves the problems of lack of a sieve material recovery structure, vibration and high noise of the thermal insulation mortar sieving and filtering device through the machine body and the processing structure.

Description

Microcrystalline thermal insulation mortar screening and filtering device

Technical Field

The utility model belongs to the technical field of constructional engineering, and particularly relates to a microcrystalline thermal insulation mortar screening and filtering device.

Background

The microcrystal heat insulating mortar is one new kind of heat insulating and energy saving mortar material for painting inner and outer wall of building, and has inorganic vitrified micro bubble as light aggregate, and dry powder mortar comprising cementing material, anticracking additive, other stuffing, etc. and has the features of saving energy, utilizing waste, heat, fireproof, antifreezing, ageing resistance, etc. it is one kind of building material for building surface heat insulating layer. The inorganic heat-insulating mortar material heat-insulating system is fireproof and does not burn. The microcrystalline heat-insulating mortar screening and filtering device can be widely used in intensive houses, public buildings, large-scale public places, inflammable and explosive places and places with strict fireproof requirements, can also be used as a fireproof isolation belt for construction, and can improve the fireproof standard of the building, and when the existing microcrystalline heat-insulating mortar is used, the existing microcrystalline heat-insulating mortar needs to be screened to ensure uniformity of internal materials, but the existing microcrystalline heat-insulating mortar screening and filtering device still has the following defects in actual use:

when the existing microcrystalline thermal insulation mortar screening and filtering device is used for screening and filtering, large particle blocks, large particle aggregates and the like can be screened out, the screened materials can be treated as leftover materials generally, the waste is relatively high, the existing thermal insulation mortar screening and filtering device is mostly used for reciprocating screening, and the problems of large vibration amplitude and large noise of a machine body exist during screening.

Therefore, the existing thermal insulation mortar screening and filtering device cannot meet the requirements in practical use, so that an improved technology is urgently needed in the market to solve the problems.

Disclosure of Invention

The utility model aims to provide a microcrystalline thermal insulation mortar screening and filtering device, which solves the problems that the existing thermal insulation mortar screening and filtering device lacks a screening material recovery structure and is high in vibration and noise through a machine body and a processing structure.

In order to solve the technical problems, the utility model is realized by the following technical scheme:

the utility model relates to a microcrystalline thermal insulation mortar screening and filtering device which comprises a machine body and a processing structure, wherein the processing structure is movably connected inside the machine body;

the machine body comprises a grinding fixed plate, the processing structure comprises buffer spring calandria, a vibrator, a driving motor and a grinding movable plate, the vibrator is arranged between the buffer spring calandria, the driving motor is arranged behind the buffer spring calandria, the driving motor is fixedly connected with the grinding movable plate through a coupler, and the grinding movable plate is arranged above the grinding fixed plate; the grinding fixed plate can be matched with the grinding movable plate to grind broken stone, so that the grinding fixed plate can meet the required grain utilization size, the large material can be recycled, the screen can be suspended in the feeding opening through the arrangement of the buffer spring calandria, the screen is not in direct contact with the machine case, the vibration of the vibrator is prevented from being transmitted to the machine case through the buffer of the internal spring, the stability of the use process of the device can be greatly improved, the influence of factors such as vibration and noise is reduced, the driving motor is used for driving the grinding movable plate, and the large particle material is refined and crushed through the interaction of the grinding movable plate and the grinding fixed plate.

Further, the machine body further comprises a machine case, a feeding port channel, a fine grinding chamber and a discharging port channel, wherein the feeding port channel is arranged above the front surface of the machine case, the rear end of the feeding port channel in the machine case is communicated with the fine grinding chamber and the discharging port channel, and the discharging port channel is arranged below the front surface of the machine case;

the fine grinding chamber is arranged at the rear of the inside of the case, the grinding fixed plate is fixedly connected to the inside of the fine grinding chamber, and the lower end of the fine grinding chamber is communicated with the discharge port channel; the machine case is used for carrying out the connection of each structure to provide stable refining grinding environment for the large granule material of screening, the pan feeding mouth way is used for carrying out the input to the material and sieves, and the discharge gate way is used for carrying out the output to the material after sieving.

Further, the processing structure further comprises a screen, buffer spring calandria are fixedly connected to the upper surface and the lower surface of the left side plate and the right side plate of the screen, and a vibrator is arranged between the buffer spring calandria at the upper position and the lower position of the two sides of the screen;

the driving motor is fixedly connected below the inside of the case;

the screen is movably connected in the feed inlet channel through a buffer spring calandria; the screen cloth can be under the effect of vibrator, carries out the vibrations screening to the material.

The utility model has the following beneficial effects:

1. the utility model solves the problem that the existing thermal insulation mortar screening and filtering device lacks a screen material recovery structure by arranging the machine body and the processing structure, wherein the machine body and the processing structure are provided with the grinding fixed plate, the driving motor and the grinding movable plate, the grinding fixed plate can be matched with the grinding movable plate to grind broken stones, so that the grinding fixed plate can achieve the required particle utilization size, the recycling of large materials is realized, the driving motor is used for driving the grinding movable plate, and the grinding fixed plate interact to refine and crush the large-particle materials.

2. The utility model solves the problems of large vibration and noise of the traditional heat-insulating mortar screening and filtering device by arranging the machine body and the processing structure, wherein the machine body and the processing structure are provided with the buffer spring calandria and the vibrator, the screen and the vibrator can be suspended in the feeding port through the arrangement of the buffer spring calandria, so that the screen and the vibrator are not in direct contact with the machine case, and the vibration of the vibrator is prevented from being conducted to the machine case through the buffer of the internal spring, so that the stability of the device in the use process is greatly improved, and the influence of factors such as vibration, noise and the like is reduced.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a cross-sectional view of the present utility model;

FIG. 3 is a disassembled view of the present utility model;

FIG. 4 is a cross-sectional view of the body of the present utility model;

FIG. 5 is a schematic view of a screen according to the present utility model.

In the drawings, the list of components represented by the various numbers is as follows:

1. a body; 101. a chassis; 102. a feed inlet channel; 103. a fine grinding chamber; 104. grinding the fixed plate; 105. a discharge port channel; 2. a processing structure; 201. a screen; 202. a buffer spring row tube; 203. a vibrator; 204. a driving motor; 205. grinding the moving plate.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model.

Referring to fig. 1-5, the utility model discloses a microcrystalline thermal insulation mortar screening and filtering device, which comprises a machine body 1 and a processing structure 2, wherein the processing structure 2 is movably connected inside the machine body 1;

the machine body 1 comprises a grinding fixed plate 104, the processing structure 2 comprises buffer spring calandria 202, a vibrator 203, a driving motor 204 and a grinding movable plate 205, the vibrator 203 is arranged between the buffer spring calandria 202, the driving motor 204 is arranged behind the buffer spring calandria 202, the driving motor 204 is fixedly connected with the grinding movable plate 205 through a coupler, and the grinding movable plate 205 is arranged above the grinding fixed plate 104;

the grinding fixed plate 104 is fixed at the lower position of the crushing chamber of the machine case 101, the inner groove of the grinding fixed plate is similar to the grinding movable plate 205 in shape, the upper surface of the grinding fixed plate is roughened, the grinding fixed plate can be matched with the grinding movable plate 205 to grind crushed stone to meet the required particle utilization size, the large material is recycled, the buffer spring row pipes 202 are fixed on the upper surface and the lower surface of the left side plate and the right side plate of the screen 201, the buffer spring row pipes 202 are arranged at intervals along the path of the screen 201, the vibrator 203 is arranged between the buffer spring row pipes and connected with a vibrating motor through a circuit, the screen 201 can be suspended in the feed inlet channel 102, the screen 201 is not in direct contact with the machine case 101, the vibration of the vibrator 203 can be prevented from being conducted to the machine case 101 through the buffer of an inner spring, the stability of the use process of the device can be greatly improved, the influence of factors such as vibration and noise can be reduced, the shaft of the driving motor 204 penetrates into the fine grinding chamber 103 and is fixed with the grinding movable plate 205 through the vibrator, the shaft is used for driving the grinding movable plate 205, and the large material is thinned through the interaction with the grinding fixed plate 104.

As shown in fig. 1-4, the machine body 1 further comprises a machine case 101, a feeding port channel 102, a fine grinding chamber 103 and a discharging port channel 105, wherein the feeding port channel 102 is arranged above the front surface of the machine case 101, the rear end of the feeding port channel 102 in the machine case 101 is communicated with the fine grinding chamber 103 and the discharging port channel 105, and the discharging port channel 105 is arranged below the front surface of the machine case 101;

the fine grinding chamber 103 is arranged at the rear of the inside of the case 101, a grinding fixed plate 104 is fixedly connected to the inside of the fine grinding chamber 103, and the lower end of the fine grinding chamber 103 is communicated with a discharge port channel 105;

the machine case 101 is a main structure of the device, and is internally provided with a vibrating motor, a control module and a power module, and is used for connecting all the structures, providing a stable refined grinding environment for screened large-particle materials, wherein the feeding port 102 is a downward-inclined material conveying channel and is used for inputting and screening the materials, and the discharging port 105 is communicated with the fine grinding chamber 103 and the feeding port 102 and is used for outputting the screened materials.

As shown in fig. 1, 2, 3 and 5, the processing structure 2 further comprises a screen 201, buffer spring calandria 202 are fixedly connected to the upper and lower surfaces of the left and right side plates of the screen 201, and a vibrator 203 is further arranged between the buffer spring calandria 202 located at the upper and lower positions of the two sides of the screen 201;

the driving motor 204 is fixedly connected to the lower part inside the case 101;

the screen 201 is movably connected inside the feed inlet channel 102 through a buffer spring calandria 202;

the screen 201 is a screened iron net, and vibration screening of the material can be performed under the action of the vibrator 203.

One specific application of this embodiment is: when screening and filtering microcrystalline thermal insulation mortar, firstly, materials are led into the feed inlet channel 102, the materials fall above the screen 201, at the moment, the vibrator 203 is driven to vibrate by the vibrating motor, the vibrator 203 transmits vibration to the screen 201, the screen 201 rapidly vibrates to screen the materials, the screened out qualified materials are directly output through the discharge outlet channel 105 through the channel below, the non-qualified materials enter the fine grinding chamber 103, meanwhile, the driving motor 204 drives the grinding moving plate 205 to rapidly rotate, and the grinding treatment of the materials is carried out through interaction with the grinding fixed plate 104, so that the materials meet the use requirement and are output through the discharge outlet channel 105.

The foregoing is only a preferred embodiment of the present utility model, and the present utility model is not limited thereto, and any modification, equivalent replacement, and improvement of some of the technical features described in the foregoing embodiments are all within the scope of the present utility model.

Claims (6)

1. The utility model provides a microcrystalline thermal insulation mortar screening filter equipment, includes organism (1) and processing architecture (2), its characterized in that: a processing structure (2) is movably connected inside the machine body (1);

organism (1) is including grinding fixed plate (104), processing architecture (2) are including buffer spring calandria (202), vibrator (203), driving motor (204) and grinding movable plate (205), still be provided with vibrator (203) between buffer spring calandria (202), the rear of buffer spring calandria (202) still is provided with driving motor (204), driving motor (204) pass through shaft coupling and grinding movable plate (205) fixed connection, grinding movable plate (205) set up the top at grinding fixed plate (104).

2. The microcrystalline thermal insulation mortar screening and filtering device according to claim 1, wherein: the machine body (1) further comprises a machine case (101), a feeding port channel (102), a fine grinding chamber (103) and a discharging port channel (105), wherein the feeding port channel (102) is arranged above the front face of the machine case (101), the rear end of the feeding port channel (102) inside the machine case (101) is communicated with the fine grinding chamber (103) and the discharging port channel (105), and the discharging port channel (105) is arranged below the front face of the machine case (101).

3. The microcrystalline thermal insulation mortar screening and filtering device according to claim 2, wherein: the fine grinding chamber (103) is arranged at the rear of the inside of the machine case (101), a grinding fixed plate (104) is fixedly connected to the inside of the fine grinding chamber (103), and the lower end of the fine grinding chamber (103) is communicated with the discharge port channel (105).

4. The microcrystalline thermal insulation mortar screening and filtering device according to claim 1, wherein: the processing structure (2) further comprises a screen (201), buffer spring calandria (202) are fixedly connected to the upper surface and the lower surface of the left side plate and the right side plate of the screen (201), and a vibrator (203) is further arranged between the buffer spring calandria (202) at the upper and lower positions of the two sides of the screen (201).

5. The microcrystalline thermal insulation mortar screening and filtering device according to claim 4, wherein: the driving motor (204) is fixedly connected to the lower part inside the case (101).

6. The microcrystalline thermal insulation mortar screening and filtering device according to claim 4, wherein: the screen (201) is movably connected to the inside of the feeding opening (102) through a buffer spring calandria (202).

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