CN112848088A - Raw material conveying device for production of vacuum heat insulation boards - Google Patents

Abstract

The invention relates to the technical field of vacuum heat insulation boards, in particular to a raw material conveying device for producing a vacuum heat insulation board. The raw materials are placed in the storage box, fall onto the conveying belt from a gap between the inner wall of the storage box and the material distributing plate, the rotating conveying belt conveys the raw materials, and the four conveying belts convey the raw materials to raw material points of different production lines, so that the requirement of supplementing materials for a plurality of production lines is met; the electric push rod is electrified to be started, the baffle is driven to change the position from top to bottom by changing the length of the electric push rod, so that the size of the gap between the material storage box and the material distribution plate is controlled, the throughput of raw materials is controlled, and the raw material supply amount to different production lines is controlled.

Description

Raw material conveying device for production of vacuum heat insulation boards

Technical Field

The invention relates to the technical field of vacuum heat insulation boards, in particular to a raw material conveying device for producing a vacuum heat insulation board.

Background

The vacuum heat insulation board is made of an inorganic fiber core material and a high-strength composite air barrier film through a vacuumizing packaging technology, and heat insulation of a building are achieved through three heat transfer modes of heat convection blocking, heat conduction and heat radiation.

Vacuum insulation heated board needs carry the raw materials at the in-process of production, satisfies the demand of production, however, current conveyor is one-way transport, can only satisfy the demand of a material point, can not carry out the feed supplement needs to a plurality of production lines simultaneously. Application number is 201220173000.8, and in the patent name was injection molding machine raw materials conveyor technical scheme, provide the power supply through the air-blower, can go to the injection molding machine feed cylinder with the raw materials granule in the raw materials hopper in, saved the human cost, reduced intensity of labour, but do not solve above-mentioned problem among this technical scheme.

Aiming at the problems, the raw material conveying device for producing the vacuum heat insulation board is designed.

Disclosure of Invention

The invention aims to provide a raw material conveying device for producing a vacuum heat-insulation board, which aims to solve the technical problem.

In order to solve the technical problems, the invention adopts the following technical scheme:

the utility model provides a raw materials conveyor is used in production of vacuum insulation heated board, includes the storage case, the equal opening of the last lower extreme of storage case, the inner wall connection of storage case has the branch flitch, the outer wall connection of storage case has four bearing plates that the symmetry set up, lies in and is connected with same outer panel, every with two bearing plates of one side the inboard sliding connection of outer panel has two interior plates, every the interior plate all is connected with driving motor, driving motor's output is connected with first cylinder, first cylinder is connected with the second cylinder through the conveyer belt, and the second cylinder passes through positioning mechanism and is connected with the interior plate rotation, and the rear end of the place ahead conveyer belt offsets with the front end of rear conveyer belt.

Preferably, the lower end of the material distributing plate is connected with a U-shaped rod, the lower end of the U-shaped rod is connected with two electric push rods, the rod part of each electric push rod is connected with a baffle through a receiving plate, the two baffles are parallel to the two side walls of the material distributing plate respectively, and the two baffles are in sliding connection with the two side walls of the material distributing plate respectively.

Preferably, the side wall of the outer ring of the conveyor belt is provided with anti-skid grains.

Preferably, each inner side plate all is connected with the aggregate board through the bracing piece, and four aggregate boards are located the below of four first cylinders respectively, and the one end that the aggregate board is close to the conveyer belt is higher than the one end of keeping away from the conveyer belt.

Preferably, positioning mechanism is including connecting the pivot on the interior plate outer wall, pivot sliding connection is in the bar groove of seting up on the outer panel, be connected with first stock in the pivot, the sleeve pipe has been cup jointed in the activity of first stock, threaded connection has first locking screw in the screw through-hole of seting up on the sleeve pipe, the fixed cover of sleeve pipe has indulged the extension limit, indulges the extension limit and is connected with the outer panel.

Preferably, the upper end of the first long rod movably penetrates through a notch formed in the upper end of the sleeve and is connected with gear teeth, the gear teeth are meshed with gears, the gears are rotatably connected with a bearing mechanism, and the bearing mechanism is connected with the outer side plate through a transverse extending edge.

Preferably, the supporting mechanism comprises a sleeve connected with the transversely extending edge, the inner wall of the sleeve is connected with a second long rod through a spring, one section of the second long rod, which is positioned outside the sleeve, is rotatably connected with the gear, and a second locking screw is connected with a threaded through hole formed in the sleeve through threads.

Preferably, the side wall of the second long rod inside the sleeve is rotatably connected with a limiting roller, and the limiting roller rolls in a limiting groove formed in the side wall of the sleeve.

The invention has the beneficial effects that:

the raw materials are placed in the storage box, fall onto the conveying belt from a gap between the inner wall of the storage box and the material distributing plate, the rotating conveying belt conveys the raw materials, and the four conveying belts convey the raw materials to raw material points of different production lines, so that the requirement of supplementing materials for a plurality of production lines is met;

the electric push rod is electrified and started, the baffle is driven to change the up-down position by changing the length of the electric push rod, so that the size of a gap between the material storage box and the material distribution plate is controlled, the throughput of raw materials is controlled, and the raw material supply amount to different production lines is controlled;

the position of the conveying belt is adjusted through the arrangement of the positioning mechanism and the inner side plate, so that a gap between the material storage box and the material distribution plate is completely positioned on the conveying belt in front or behind, the independent feeding of the conveying belt in front or behind is completed, and the feeding operation of a single conveying belt is completed through the mutual matching of the size control of the gap between the material storage box and the material distribution plate through the baffle plate;

the setting of receiving mechanism, the upper and lower position of adjustment gear moves the gear downwards, makes gear and teeth of a cogwheel meshing, moves the gear upwards, makes gear and teeth of a cogwheel break away from, conveniently carries out the direct operation to first stock, satisfies the regulation mode that carries out meticulous regulation and position control by a wide margin to first stock.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic top view of the present invention;

FIG. 3 is a schematic view of the positioning mechanism of the present invention;

FIG. 4 is a schematic view of the receiving mechanism of the present invention;

reference numerals: 1-a material storage box; 2-material distributing plate; 201-U-shaped rod; 202-electric push rod; 203-bearing plate; 204-a baffle; 3-a bearing plate; 4-an outer panel; 401-strip groove; 5-driving a motor; 6-a first drum; 7-a conveyor belt; 8-a second drum; 9-a positioning mechanism; 901-a rotating shaft; 902-a first long rod; 903-sleeve; 904 — first locking screw; 905-longitudinally extending sides; 906-gear teeth; 907-gear; 10-a material collecting plate; 11-a support bar; 12-a transversely extending edge; 13-a carrying mechanism; 1301-a sleeve; 1302-a spring; 1303-a second long bar; 1304-a second locking screw; 1305-a limit groove; 1306-limit roller.

Detailed Description

In order to make the technical means, the original characteristics, the achieved purposes and the effects of the invention easily understood, the invention is further described below with reference to the specific embodiments and the attached drawings, but the following embodiments are only the preferred embodiments of the invention, and not all embodiments. Based on the embodiments in the implementation, other embodiments obtained by those skilled in the art without any creative efforts belong to the protection scope of the present invention.

Specific embodiments of the present invention are described below with reference to the accompanying drawings.

Example 1

As shown in fig. 1-2, a raw material conveying device is used in production of vacuum insulation board, including storage case 1, the equal opening of last lower extreme of storage case 1, the inner wall connection of storage case 1 has branch flitch 2, the outer wall connection of storage case 1 has four bearing plates 3 that the symmetry set up, two bearing plates 3 that lie in same one side are connected with same outer panel 4, the inboard sliding connection of every outer panel 4 has two interior plates, every interior plate all is connected with driving motor 5, driving motor 5's output is connected with first cylinder 6, first cylinder 6 is connected with second cylinder 8 through conveyer belt 7, second cylinder 8 rotates with the interior plate through positioning mechanism 9 and is connected, the rear end of place ahead conveyer belt 7 offsets with the front end of rear conveyer belt 7.

The side wall of the outer ring of the conveyor belt 7 is provided with anti-skid grains; every interior plate all is connected with album flitch 10 through bracing piece 11, and four album flitchs 10 are located the below of four first cylinders 6 respectively, and the one end that the board 10 that gathers materials is close to conveyer belt 7 is higher than the one end of keeping away from conveyer belt 7.

In the scheme, a series circuit is formed by a driving motor 5, an external switch and an external power supply through leads, the driving motor 5 is electrified and started to drive a first roller 6 to rotate, the first roller 6 drives a second roller 8 to synchronously rotate through a conveyor belt 7, the rotating direction of the conveyor belt 7 is shown in figure 2,

the raw materials are placed in the storage box 1, fall onto the conveyor belt 7 from a gap between the inner wall of the storage box 1 and the material distributing plate 2, the raw materials are conveyed by the rotating conveyor belt 7, and the raw materials are conveyed to raw material points of different production lines by the four conveyor belts 7, so that the requirement of supplementing materials for a plurality of production lines is met;

the rear end of the front conveyor belt 7 is abutted against the front end of the rear conveyor belt 7 and is matched with the rotating direction of the conveyor belts 7, so that the raw materials are prevented from falling between the two conveyor belts 7; the setting of collection flitch 10 reduces conveyer belt 7 and carries the raw materials, and the scope when the raw materials dropped is conveniently collected the raw materials that conveys by conveyer belt 7.

The lower end of the material distributing plate 2 is connected with a U-shaped rod 201, the lower end of the U-shaped rod 201 is connected with two electric push rods 202, the rod part of each electric push rod 202 is connected with a baffle 204 through a bearing plate 203, the two baffles 204 are respectively parallel to two side walls of the material distributing plate 2, and the two baffles 204 are respectively in sliding connection with the two side walls of the material distributing plate 2;

the electric push rod 202, the external switch and the external power supply form a series circuit through conducting wires, the electric push rod 202 is electrified and started, and the baffle 204 is driven to change the upper position and the lower position by changing the length of the electric push rod, so that the size of the gap between the material storage box 1 and the material distributing plate 2 is controlled, the passing amount of raw materials is controlled, and the raw material supply amount to different production lines is controlled.

As shown in fig. 3, the positioning mechanism 9 includes a rotating shaft 901 connected to the outer wall of the inner side plate, the rotating shaft 901 is slidably connected to a strip-shaped groove 401 formed in the outer side plate 4, the rotating shaft 901 is connected to a first long rod 902, the first long rod 902 is movably sleeved with a sleeve 903, a first locking screw 904 is in threaded connection with a threaded through hole formed in the sleeve 903, a longitudinally extending edge 905 is fixedly sleeved on the sleeve 903, and the longitudinally extending edge 905 is connected to the outer side plate 4; the upper end of the first long rod 902 movably penetrates through a notch formed in the upper end of the sleeve 903 and is connected with gear teeth 906, the gear teeth 906 are meshed with a gear 907, the gear 907 is rotatably connected with a bearing mechanism 13, and the bearing mechanism 13 is connected with the outer side plate 4 through a transversely extending edge 12.

The first long rod 902 is moved in the sleeve 903, after the first long rod 902 is moved to a proper position, the relative position of the first long rod 902 and the sleeve 903 is fixed through the first locking screw 904, at this time, the rotating shaft 901 slides in the strip-shaped groove 401, the first long rod 902 drives the inner side plate, the driving motor 5, the first roller 6, the conveyor belt 7 and the second roller 8 to synchronously move through the rotating shaft 901, the conveyor belt 7 is moved to a proper position,

the gear 907 is rotated forwards, the gear 906 drives the first long rod 902 to move into the sleeve 903, the gear 907 is rotated reversely, the gear 906 drives the first long rod 902 to move towards the outside of the sleeve 903, the gear 907 is rotated to change the position of the conveyor belt 7, the adjusting precision is higher, and the position difference after adjustment is reduced;

through the setting of positioning mechanism 9 and interior curb plate, adjust the position of conveyer belt 7, make the gap of one side between storage case 1 and the branch flitch 2 be located the conveyer belt 7 in the place ahead or the rear completely, accomplish the independent feed to the conveyer belt 7 in the place ahead or the rear, through the mutual cooperation of baffle 204 to the control of gap size between storage case 1 and the branch flitch 2, accomplish the operation of feeding to an independent conveyer belt 7.

As shown in fig. 4, the receiving mechanism 13 comprises a sleeve 1301 connected with the transverse extending edge 12, a second long rod 1303 is connected with the inner wall of the sleeve 1301 through a spring 1302, a section of the second long rod 1303 positioned outside the sleeve 1301 is rotatably connected with a gear 907, and a second locking screw 1304 is connected with a threaded through hole formed in the sleeve 1301 in a threaded manner; the second long rod 1303 is rotatably connected to a limiting roller 1306 on the side wall of the sleeve 1301, and the limiting roller 1306 rolls in a limiting groove 1305 formed in the side wall of the sleeve 1301.

The second long rod 1303 is pulled out from the sleeve 1301 by a proper length, the relative positions of the sleeve 1301 and the second long rod 1303 are fixed by using the second locking screw 1304, at this time, the spring 1302 is stretched, after the position fixation of the second long rod 1303 is released, the second long rod 1303 is driven to move towards the inside of the sleeve 1301 under the action of the spring 1302,

the limiting groove 1305 and the limiting roller 1306 are arranged, when the second long rod 1303 moves up and down, the limiting roller 1306 rotates in the limiting groove 1305 to limit the second long rod 1303, so that the second long rod 1303 can only move up and down,

the bearing mechanism 13 is arranged to adjust the up-down position of the gear 907, move the gear 907 downwards to enable the gear 907 to be meshed with the gear teeth 906, move the gear 907 upwards to enable the gear 907 to be separated from the gear teeth 906, so that the first long rod 902 can be directly operated conveniently, and the requirements for fine adjustment and large-amplitude position adjustment of the first long rod 902 are met.

In the present invention, unless otherwise expressly stated or limited, "above" or "below" a first feature means that the first and second features are in direct contact, or that the first and second features are not in direct contact but are in contact with each other via another feature therebetween. 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 under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the preferred embodiments of the present invention are described in the above embodiments and the description, and are not intended to limit the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (8)

1. A raw material conveying device for producing a vacuum heat insulation board comprises a storage box (1), wherein the upper end and the lower end of the storage box (1) are both provided with openings,

the method is characterized in that: the inner wall of storage case (1) is connected with branch flitch (2), the outer wall of storage case (1) is connected with four bearing plates (3) that the symmetry set up, and two bearing plates (3) that lie in same one side are connected with same outer panel (4), every the inboard sliding connection of outer panel (4) has two interior plates, every the interior plate all is connected with driving motor (5), the output of driving motor (5) is connected with first cylinder (6), first cylinder (6) are connected with second cylinder (8) through conveyer belt (7), and second cylinder (8) rotate with the interior plate through positioning mechanism (9) and are connected, and the rear end of place ahead conveyer belt (7) offsets with the front end of rear conveyer belt (7).

2. The raw material conveying device for producing the vacuum heat insulation board according to claim 1, characterized in that: the lower extreme of branch flitch (2) is connected with U type pole (201), the lower extreme of U type pole (201) is connected with two electric putter (202), the pole portion of electric putter (202) is connected with baffle (204) through accepting board (203), and two baffles (204) are parallel with two lateral walls of branch flitch (2) respectively, and two baffles (204) are respectively with two lateral walls sliding connection of branch flitch (2).

3. The raw material conveying device for producing the vacuum heat insulation board according to claim 1, characterized in that: and anti-skid grains are arranged on the side wall of the outer ring of the conveyor belt (7).

4. The raw material conveying device for producing the vacuum heat insulation board according to claim 1, characterized in that: every interior plate all is connected with album flitch (10) through bracing piece (11), and four album flitchs (10) are located the below of four first cylinders (6) respectively, and the one end that collection flitch (10) are close to conveyer belt (7) is higher than the one end of keeping away from conveyer belt (7).

5. The raw material conveying device for producing the vacuum heat insulation board according to claim 1, characterized in that: positioning mechanism (9) are including connecting pivot (901) on the interior curb plate outer wall, pivot (901) sliding connection is in bar groove (401) of seting up on outer panel (4), be connected with first stock (902) on pivot (901), sleeve pipe (903) have been cup jointed in first stock (902) activity, threaded connection has first locking screw (904) in the screw through-hole of seting up on sleeve pipe (903), sleeve pipe (903) are fixed to be cup jointed and are indulged extension limit (905), indulge extension limit (905) and be connected with outer panel (4).

6. The raw material conveying device for producing the vacuum heat insulation board according to claim 5, characterized in that: the upper end of the first long rod (902) movably penetrates through a notch formed in the upper end of the sleeve (903) and is connected with gear teeth (906), the gear teeth (906) are meshed with a gear (907), the gear (907) is rotatably connected with a bearing mechanism (13), and the bearing mechanism (13) is connected with the outer side plate (4) through a transverse extending edge (12).

7. The raw material conveying device for producing the vacuum heat insulation and preservation plate according to claim 6 is characterized in that: the bearing mechanism (13) comprises a sleeve (1301) connected with the transverse extending edge (12), the inner wall of the sleeve (1301) is connected with a second long rod (1303) through a spring (1302), one section of the second long rod (1303) located outside the sleeve (1301) is rotatably connected with a gear (907), and a second locking screw (1304) is connected with a threaded through hole formed in the sleeve (1301) in a threaded mode.

8. The raw material conveying device for producing the vacuum heat insulation and preservation plate according to claim 7 is characterized in that: the second long rod (1303) is rotatably connected with a limiting roller (1306) on the side wall of the inner portion of the sleeve (1301), and the limiting roller (1306) rolls in a limiting groove (1305) formed in the side wall of the sleeve (1301).

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