CN111889206A - Mica fragment transfer car (buggy) - Google Patents

Abstract

The invention discloses a mica fragment transfer vehicle which comprises a vehicle body, a rotating arm, an oil cylinder, a first suction pipe, a separating tank, a second suction pipe and an air pump, wherein the rotating arm comprises a rotating seat arranged on the vehicle body, and a first cantilever and a second cantilever which are sequentially hinged, the first suction pipe is arranged on the first cantilever and the second cantilever, and the second suction pipe is communicated with the first cantilever and the second cantilever; when the air is pumped by the air pump, mica fragments enter the separating tank from the port of the first suction pipe at the free end of the second cantilever and are conveyed into the separating tank and fall into the tank body, and when the mica fragments in the tank body are accumulated to a certain amount, the discharging door can be opened to realize discharging. But through setting up the position that the first material pipe of inhaling of automatic rising regulation of swinging boom, inhale the reducible residue of material through the negative pressure. Simultaneously at the in-process of unloading, aim at container or conveyer belt with the discharge gate, can transport the piece to next process, promoted the transportation efficiency.

Description

Mica fragment transfer car (buggy)

Technical Field

The invention relates to the field of mica transfer, in particular to a mica fragment transfer cantilever and a mica fragment transfer trolley.

Background

The mica powder is a non-metallic mineral and contains a plurality of components, wherein the main component is SiO2, the content is generally about 49%, and the content of Al2O3 is about 30%. The mica powder has good elasticity and toughness. The additive has the characteristics of insulativity, high temperature resistance, acid and alkali resistance, corrosion resistance, strong adhesive force and the like, and is an excellent additive. It is widely used in the industries of electric appliances, welding electrodes, rubber, plastics, paper making, paint, coating, pigment, ceramics, cosmetics, novel building materials and the like, and has extremely wide application. With the continuous development of science and technology, people open up a new application field.

In the processing process of mica powder, the following procedures are generally included, mica chips are put into a cleaning machine to be washed by water to remove impurities on mica, then centrifugal dehydration is carried out in the cleaning machine, then grinding treatment is carried out in a grinding machine to form slurry, and finally the ground mica powder is dried and sorted to form the mica powder. The mica is generally transferred into a grinding machine from a cleaning machine by manual transfer, and the quasi-transfer efficiency is low.

Disclosure of Invention

The invention provides a mica fragment transfer trolley which can solve the problem of low automation degree of mica fragment transfer.

The technical solution of the invention is as follows:

a mica scrap transfer cart comprising:

a vehicle body;

the rotating arm comprises a rotating seat arranged on the vehicle body, a first cantilever hinged with the rotating seat and a second cantilever hinged with the first cantilever;

one end of the oil cylinder is hinged with the first cantilever, and the other end of the oil cylinder is hinged with the second cantilever;

the first material suction pipe is arranged on the first cantilever and the second cantilever, one end of the first material suction pipe is arranged on the rotating seat, and the other end of the first material suction pipe is arranged at the free end of the second cantilever;

the separation tank is arranged on the vehicle transporting body and comprises a tank body, a feed inlet arranged at one position of the middle area of the side wall of the tank body, a discharge outlet arranged at the bottom of the tank body, a discharge door arranged at the discharge outlet and an air outlet arranged on the side wall of the tank body and close to the top of the tank body;

one end of the second material suction pipe is communicated with one end of the first material suction pipe arranged on the rotary seat, and the other end of the second material suction pipe is communicated with the feeding hole;

and the air inlet of the air pump is communicated with the air outlet.

Preferably, the rotary base includes:

the connecting sleeve is arranged on the vehicle body, and the lower end of the connecting sleeve is communicated with the second material suction pipe;

the flange is arranged at the upper end of the connecting sleeve;

the mounting piece is arranged inside the connecting sleeve, and two centrosymmetric kidney-shaped holes are formed by the mounting piece and the inner wall of the connecting sleeve;

mounting a column; the mounting piece is arranged to extend upwards from the upper surface of the mounting piece;

the mounting plate is provided with a feeding hole corresponding to the waist-shaped hole, and the feeding hole is communicated with the first suction pipe;

the feeding pipe is arranged at the feeding hole and penetrates through the waist-shaped hole;

the mounting sleeve is arranged on the mounting plate, and an opening at the lower end of the mounting sleeve is arranged and is rotationally connected with the mounting column;

the hinged seat is arranged at the upper end of the mounting sleeve and used for being connected with the first cantilever.

Preferably, the swivel further comprises a flat bearing disposed between the mounting plate and the flange.

Preferably, the rotary base further comprises a gear ring arranged on the flange, a driving motor arranged on the mounting plate and a gear arranged on a main shaft of the driving motor, and the gear is matched with the gear ring; the driving motor is used for driving the rotating part to rotate.

Preferably, the inner wall of the tank body is further provided with a dust baffle plate positioned between the feeding hole and the air outlet.

Preferably, the inner wall of the tank body is provided with a plurality of dust baffles which are arranged in a staggered mode, and the dust baffles and the tank body form an S-shaped air channel between the feeding hole and the air outlet.

The mica fragment transfer trolley comprises a trolley body, a rotating arm, an oil cylinder, a first suction pipe, a separating tank, a second suction pipe and an air pump, wherein the rotating arm comprises a rotating seat arranged on the trolley body and a first cantilever and a second cantilever which are sequentially hinged, the first suction pipe is arranged on the first cantilever and the second cantilever, and the second suction pipe is communicated with the first cantilever and the second cantilever; when the air is pumped by the air pump, mica fragments enter the separating tank from the port of the first suction pipe at the free end of the second cantilever and are conveyed into the separating tank and fall into the tank body, and when the mica fragments in the tank body are accumulated to a certain amount, the discharging door can be opened to realize discharging. But through setting up the position that the first material pipe of inhaling of automatic rising regulation of swinging boom, inhale the reducible residue of material through the negative pressure. Simultaneously at the in-process of unloading, aim at container or conveyer belt with the discharge gate, can transport the piece to next process, promoted the transportation efficiency.

Drawings

FIG. 1 is a schematic view of the structure of one embodiment of a mica scrap transfer vehicle;

FIG. 2 is a schematic structural diagram of the rotary base in the embodiment of FIG. 1;

fig. 3 is a schematic structural diagram of the separation tank in the embodiment of fig. 1.

Detailed Description

The invention provides a mica fragment transfer vehicle, which comprises a vehicle body 10, a rotating arm 20, a first oil cylinder 27, a second oil cylinder 28, a first suction pipe 24a, a separation tank 12, a second suction pipe 24b and a suction pump 30, and is shown in the figures 1 to 3. In the present embodiment, the rotating arm 20 includes a rotating base disposed on the vehicle body 10, a first suspension arm 25 hinged to the rotating base, and a second suspension arm 26 hinged to an end of the first suspension arm 25 away from the rotating base. A first oil cylinder 27, one end of which is hinged with the first cantilever 25, and the other end of which is hinged with the second cantilever 26; a second cylinder 28, one end of which is hinged with the vehicle body 10 and the other end of which is hinged with the first cantilever 25;

the first suction pipe 24a is arranged on the first cantilever 25 and the second cantilever 26, one end of the first suction pipe is arranged on the rotary base, and the other end of the first suction pipe is arranged at the free end of the second cantilever 26; the separation tank 12 is arranged on the vehicle body 10 and comprises a tank body, a feed inlet 12a arranged at one position of the middle area of the side wall of the tank body, a discharge outlet arranged at the bottom of the tank body, a discharge door 12b arranged at the discharge outlet and an air outlet 12c arranged on the side wall of the tank body and close to the top of the tank body; one end of the second suction pipe 24b is communicated with one end of the first suction pipe 24a arranged on the rotary seat, and the other end of the second suction pipe is communicated with the feed port 12 a; an air inlet of the air pump 30 is communicated with the air outlet 12 c.

The mica fragment transfer trolley comprises a trolley body 10, a rotating arm 20, an oil cylinder, a first suction pipe 24a, a separating tank 12, a second suction pipe 24b and a suction pump 30, wherein the rotating arm 20 comprises a rotating seat arranged on the trolley body 10 and a first cantilever 25 and a second cantilever 26 which are sequentially hinged, the first suction pipe 24a is arranged on the first cantilever 25 and the second cantilever 26, and the second suction pipe 24b is communicated with the first cantilever 25 and the second cantilever 26; when the air pump 30 pumps air, mica fragments enter from the port of the first suction pipe 24a at the free end of the second cantilever 26 and are conveyed into the separation tank 12 and fall into the tank body, and when the mica fragments in the tank body are accumulated to a certain amount, the discharge door 12b can be opened to realize discharging. The position of the first material suction pipe 24a can be automatically adjusted by the arrangement of the rotating arm 20, and the residue can be reduced by negative pressure material suction. Simultaneously at the in-process of unloading, aim at container or conveyer belt with the discharge gate, can transport the piece to next process, promoted the transportation efficiency.

In a preferred embodiment of the present invention, the rotary base includes a connection sleeve 21a, a flange 21d, a mounting member, a mounting column 21c, a mounting plate 23a, a feeding pipe 23c, a mounting sleeve 23d and a hinge base 23 e. The connecting sleeve 21a is arranged on the vehicle body 10, and the lower end of the connecting sleeve is communicated with the second material suction pipe 24 b; the flange 21d is arranged at the upper end of the connecting sleeve 21a and is fixedly connected to the vehicle body 10; the mounting piece is arranged inside the connecting sleeve 21a, and two centrosymmetric kidney-shaped holes are formed by the mounting piece and the inner wall of the connecting sleeve 21 a; the mounting column 21c extends upwards from the upper surface of the mounting piece; the mounting plate 23a is provided with a feeding hole corresponding to the waist-shaped hole, and the feeding hole is communicated with the first suction pipe 24 a; the feeding pipe 23c is arranged at the feeding hole and penetrates through the kidney-shaped hole; the mounting sleeve 23d is arranged on the mounting plate 23a, has an opening at the lower end and is rotatably connected with the mounting column 21 c; a hinge seat 23e is provided at an upper end of the mounting sleeve 23d for connection with the first cantilever 25. Further, the rotary base further includes a flat bearing 22 disposed between the mounting plate 23a and the flange 21 d. The rotary base further comprises a gear ring arranged on the flange 21d, a driving motor arranged on the mounting plate 23a and a gear arranged on a main shaft of the driving motor, and the gear is matched with the gear ring; the driving motor is used for driving the rotating seat to rotate.

Furthermore, the inner wall of the tank body is also provided with a dust baffle 12d positioned between the feed inlet 12a and the air outlet 12 c. The inner wall of the tank body is provided with a plurality of dust baffles 12d which are arranged in a staggered mode, and the dust baffles 12d and the tank body form an S-shaped air channel between the feed inlet 12a and the air outlet 12 c. The dust guard 12d is provided to prevent foreign matter and fine-grained mica chips from entering the suction pump 30 and damaging the suction pump 30.

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, however, as long as there is no contradiction between the combinations of the technical features, the scope of the present description should be considered as being described in the present specification. The above examples only show some embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention.

Claims (6)

1. A mica chip transfer car (buggy), comprising:

a vehicle body;

the rotating arm comprises a rotating seat arranged on the vehicle body, a first cantilever hinged with the rotating seat and a second cantilever hinged with the first cantilever;

one end of the first oil cylinder is hinged with the first cantilever, and the other end of the first oil cylinder is hinged with the second cantilever;

one end of the second oil cylinder is hinged with the vehicle body, and the other end of the second oil cylinder is hinged with the first cantilever;

the first material suction pipe is arranged on the first cantilever and the second cantilever, one end of the first material suction pipe is arranged on the rotating seat, and the other end of the first material suction pipe is arranged at the free end of the second cantilever;

the separation tank is arranged on the vehicle body and comprises a tank body, a feed inlet arranged at one position of the middle area of the side wall of the tank body, a discharge outlet arranged at the bottom of the tank body, a discharge door arranged at the discharge outlet and an air outlet arranged on the side wall of the tank body and close to the top of the tank body;

one end of the second material suction pipe is communicated with one end of the first material suction pipe arranged on the rotary seat, and the other end of the second material suction pipe is communicated with the feeding hole;

and the air inlet of the air pump is communicated with the air outlet.

2. The mica debris transfer car (buggy) of claim 1, wherein said swivel comprises:

the connecting sleeve is arranged on the vehicle body, and the lower end of the connecting sleeve is communicated with the second material suction pipe;

the flange is arranged at the upper end of the connecting sleeve;

the mounting piece is arranged inside the connecting sleeve, and two centrosymmetric kidney-shaped holes are formed by the mounting piece and the inner wall of the connecting sleeve;

mounting a column; the mounting piece is arranged to extend upwards from the upper surface of the mounting piece;

the mounting plate is provided with a feeding hole corresponding to the waist-shaped hole, and the feeding hole is communicated with the first suction pipe;

the feeding pipe is arranged at the feeding hole and penetrates through the waist-shaped hole;

the mounting sleeve is arranged on the mounting plate, and an opening at the lower end of the mounting sleeve is arranged and is rotationally connected with the mounting column;

the hinged seat is arranged at the upper end of the mounting sleeve and used for being connected with the first cantilever.

3. The mica debris transfer car (buggy) of claim 2, wherein the swivel further comprises a flat bearing disposed between the mounting plate and the flange.

4. The mica debris transfer car (buggy) of claim 3, wherein said swivel base further comprises a gear ring provided on said flange, a drive motor provided on said mounting plate, and a gear provided on a main shaft of said drive motor, said gear being fitted with said gear ring; the driving motor is used for driving the rotating part to rotate.

5. The mica debris transfer car (buggy) of claim 1, wherein the inner wall of the tank body is further provided with a dust board between the feed inlet and the air outlet.

6. The mica debris transfer car (buggy) of claim 5, characterized in that the inner wall of the tank body is provided with a plurality of staggered dust baffles, and the dust baffles and the tank body form an S-shaped air channel between the feed inlet and the air outlet.

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