CN214792505U - Material spreading height limiting device of mesh belt furnace - Google Patents

Abstract

The utility model discloses a mesh belt furnace spreading height limiting device, which comprises a mesh belt conveying channel, wherein the upper surface of the mesh belt conveying channel is fixedly connected with a door-shaped supporting plate, the middle part of the upper end of the door-shaped supporting plate is welded with a vertical plate, one side wall of the vertical plate is fixedly connected with a cylinder, the outlet end of the cylinder is fixedly connected with a connecting plate, the other end of the connecting plate is welded with an inner tube, the outer wall of the inner tube is connected with an outer tube in a sliding way, the other end of the outer tube is welded with a movable plate, a first movable mechanism and a second movable mechanism are arranged between the door-shaped supporting plate and the movable plate, the first movable mechanism and the second movable mechanism are in mirror symmetry, the cylinder is started to push the movable plate to move in the horizontal direction, so that a product higher than a set value is scraped forwards or backwards through the movable plate, the stacking height of a workpiece is further controlled, the workpiece is uniformly laid on the mesh belt conveying channel, and the labor cost is saved, the stability of the height of the workpiece is ensured, and the product quality is promoted.

Description

Material spreading height limiting device of mesh belt furnace

Technical Field

The utility model relates to a mesh belt furnace technical field, more specifically say, relate to a mesh belt furnace stone limit for height device.

Background

With the development of the mesh belt furnace technology, the product requirements made by customers on the mesh belt furnace are gradually improved. With the improvement of the requirement of people on the uniformity of the product quality, the control of the product temperature of the mesh belt furnace is more and more important. And need control the product temperature better, just need control the thickness of spreading product on the guipure surface, avoid leading to product heating temperature inconsistent because of thickness fluctuation to effectively promote product quality homogeneity.

The mainstream means adopted at present is to control and add manual intervention through a previous procedure. The workpiece flows to the surface of the mesh belt at a constant speed by means of adjusting the discharging speed of the previous procedure as much as possible. However, since the incoming material from the previous process is often not uniform but fed in batches, the product laid on the surface of the mesh belt cannot be guaranteed to be uniform. The manufacturer typically arranges an operator near the web laydown area to manually lay down uneven workpieces uniformly. However, this increases the labor cost, and the manual operation still has instability, which is not favorable for improving the product quality.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a guipure stove stone limit for height device aims at can effectual solution problem among the prior art.

In order to solve the above problem, the utility model adopts the following technical scheme:

a mesh belt furnace spreading height limiting device comprises a mesh belt conveying channel, wherein a door-shaped supporting plate is fixedly connected to the upper surface of the mesh belt conveying channel, a vertical plate is welded in the middle of the upper end of the door-shaped supporting plate, an air cylinder is fixedly connected to one side wall of the vertical plate, a connecting plate is fixedly connected to the outlet end of the air cylinder, a pair of third T-shaped columns and a pair of fourth T-shaped columns are welded at the bottom of the connecting plate, an inner pipe is welded at the other end of the connecting plate, an outer pipe is slidably connected to the outer wall of the inner pipe, a moving plate is welded at the other end of the outer pipe, a first moving mechanism and a second moving mechanism are arranged between the door-shaped supporting plate and the moving plate, the first moving mechanism and the second moving mechanism are in mirror symmetry, the air cylinder is started to push the moving plate to move in the horizontal direction, so that products higher than a set value are scraped forwards or backwards through the moving plate, and then the stacking height of the workpieces is controlled, so that the workpieces are uniformly laid on the mesh belt conveying channel, the labor cost is saved, the stability of the height of the workpieces is ensured, and the product quality is favorably improved.

As a preferred scheme of the utility model, first movable mechanism includes first T shape post, the lower extreme welding of first T shape post is on the upper surface of door shape backup pad, swing joint has first fly leaf on the outer wall of first T shape post, there is the second fly leaf other end bottom of first fly leaf through second dumbbell shape post swing joint.

As a preferred scheme of the utility model, there is the third fly leaf lower extreme middle part of first fly leaf through first dumbbell shape post swing joint, first dumbbell shape post runs through first fly leaf and third fly leaf, there is the fourth fly leaf upper end middle part of second fly leaf through third dumbbell shape post swing joint, third dumbbell shape post runs through second fly leaf and fourth fly leaf.

As a preferred scheme of the utility model, second movable mechanism includes second T shape post, the lower extreme welding of second T shape post is on the upper surface of door shape backup pad, swing joint has the fifth fly leaf on the outer wall of second T shape post, the other end of fifth fly leaf has the sixth fly leaf through fifth dumbbell shape post swing joint.

As a preferred scheme of the utility model, there is the seventh fly leaf lower extreme middle part of fifth fly leaf through fourth dumbbell shape post swing joint, seventh fly leaf, third fly leaf are run through respectively to a pair of third T shape post, there is the eighth fly leaf upper end middle part of sixth fly leaf through sixth dumbbell shape post swing joint, a pair of fourth T shape post runs through eighth fly leaf, fourth fly leaf respectively.

As a preferred scheme of the utility model, it has first recess and third recess to open on the lateral wall of movable plate, the welding of the interior roof middle part of third recess has the push pedal, open in the front of movable plate has the second recess, the welding of the interior roof of second recess has a pair of fifth T shape post, a pair of fifth T shape post runs through sixth fly leaf, second fly leaf respectively.

Compared with the prior art, the utility model has the advantages of:

(1) the starting cylinder pushes the connecting plate to move in the horizontal direction, and through mutual matching of the first moving mechanism, the second moving mechanism and the moving plate, the moving of the connecting plate drives the moving plate to move in the horizontal direction, so that a product higher than a set value is scraped forwards or backwards through the moving plate, the stacking height of the workpiece is controlled, the workpiece is uniformly laid on the mesh belt conveying channel, the labor cost is saved, and the product quality is improved.

(2) The starting cylinder pushes the connecting plate to move in the horizontal direction, the connecting plate moves to drive the third movable plate and the seventh movable plate to rotate around the corresponding pair of third T-shaped columns respectively, meanwhile, the fourth movable plate and the eighth movable plate are driven to rotate around the corresponding pair of fourth T-shaped columns respectively, the first movable plate is driven to rotate by the rotation of the third movable plate with the first T-shaped column as the center, the second movable plate is driven to rotate by the rotation of the first movable plate and the fourth movable plate, the fifth movable plate is driven to rotate with the second T-shaped column as the center by the rotation of the seventh movable plate, the sixth movable plate is driven to rotate by the rotation of the fifth movable plate and the eighth movable plate, and the movable plates are driven to move in the horizontal direction by the rotation of the second movable plate and the sixth movable plate, so that the stability of the height of a workpiece is guaranteed.

Drawings

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

fig. 2 is an enlarged schematic view of a structure at a point a in fig. 1 according to the present invention;

fig. 3 is a schematic front view of the present invention;

fig. 4 is a schematic view of the structure of the present invention.

The reference numbers in the figures illustrate:

1. a mesh belt conveying channel; 2. a door-shaped support plate; 3. a vertical plate; 4. a cylinder; 5. a connector tile; 6. a first movable mechanism; 61. a first movable plate; 62. a second movable plate; 63. a third movable plate; 64. a fourth movable plate; 65. a first T-shaped post; 66. a first dumbbell-shaped post; 67. a second dumbbell-shaped post; 68. a third dumbbell-shaped post; 7. a second movable mechanism; 71. a fifth movable plate; 72. a sixth movable plate; 73. a seventh movable plate; 74. an eighth movable plate; 75. a second T-shaped post; 76. a fourth dumbbell-shaped post; 77. a fifth dumbbell-shaped post; 78. a sixth dumbbell-shaped post; 8. moving the plate; 81. a first groove; 82. a second groove; 83. a third groove; 84. pushing the plate; 9. an inner tube; 10. an outer tube; 11. a pair of third T-shaped posts; 12. a pair of fourth T-shaped posts; 13. a pair of fifth T-shaped posts.

Detailed Description

The technical solution in the embodiment of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiment of the present invention. Obviously, the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and all other embodiments obtained by those skilled in the art without any inventive work are within the scope of the present invention based on the embodiments of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "top/bottom", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted", "provided", "sleeved/connected", "connected", and the like are to be understood in a broad sense, such as "connected", which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example (b):

referring to fig. 1-4, a mesh belt furnace spreading height limiting device comprises a mesh belt conveying channel 1, wherein a door-shaped supporting plate 2 is fixedly connected to the upper surface of the mesh belt conveying channel 1, a vertical plate 3 is welded to the middle of the upper end of the door-shaped supporting plate 2, an air cylinder 4 is fixedly connected to one side wall of the vertical plate 3, a connecting plate 5 is fixedly connected to the outlet end of the air cylinder 4, a pair of third T-shaped columns 11 and a pair of fourth T-shaped columns 12 are welded to the bottom of the connecting plate 5, an inner tube 9 is welded to the other end of the connecting plate 5, an outer tube 10 is slidably connected to the outer wall of the inner tube 9, a moving plate 8 is welded to the other end of the outer tube 10, a first moving mechanism 6 and a second moving mechanism 7 are arranged between the door-shaped supporting plate 2 and the moving plate 8, and the first moving mechanism 6 and the second moving mechanism 7 are in mirror symmetry.

In a further embodiment, the starting cylinder 4 pushes the connecting plate 5 to move in the horizontal direction, and through the mutual matching of the first moving mechanism 6, the second moving mechanism 7 and the moving plate 8, the moving of the connecting plate 5 drives the moving plate 8 to move in the horizontal direction, so that a product higher than a set value is scraped forwards or backwards through the moving plate 8, the stacking height of the workpiece is further controlled, the workpiece is uniformly laid on the mesh belt conveying channel 1, the labor cost is saved, the stability of the height of the workpiece is guaranteed, and the improvement of the product quality is facilitated.

Specifically, the first movable mechanism 6 includes a first T-shaped column 65, a lower end of the first T-shaped column 65 is welded on the upper surface of the door-shaped support plate 2, a first movable plate 61 is movably connected to an outer wall of the first T-shaped column 65, and a second movable plate 62 is movably connected to the bottom of the other end of the first movable plate 61 through a second dumbbell-shaped column 67.

In a further embodiment, a first T-shaped post 65 extends through the first flap 61 and a second dumbbell-shaped post 67 extends through the first flap 61 and the second flap 62.

Specifically, the lower middle portion of the first movable plate 61 is movably connected to a third movable plate 63 through a first dumbbell-shaped column 66, the first dumbbell-shaped column 66 penetrates through the first movable plate 61 and the third movable plate 63, the upper middle portion of the second movable plate 62 is movably connected to a fourth movable plate 64 through a third dumbbell-shaped column 68, and the third dumbbell-shaped column 68 penetrates through the second movable plate 62 and the fourth movable plate 64.

In a further embodiment, the movement of the engaging plate 5 drives the third movable plate 63 and the fourth movable plate 64 to rotate, the movement of the third movable plate 63 drives the first movable plate 61 to rotate around the first T-shaped post 65 under the engaging action of the first dumbbell-shaped post 66, and the rotation of the fourth movable plate 64 drives the second movable plate 62 to rotate under the engaging action of the third dumbbell-shaped post 68.

Specifically, the second movable mechanism 7 includes a second T-shaped pillar 75, a lower end of the second T-shaped pillar 75 is welded on the upper surface of the door-shaped support plate 2, a fifth movable plate 71 is movably connected to an outer wall of the second T-shaped pillar 75, and a sixth movable plate 72 is movably connected to the other end of the fifth movable plate 71 through a fifth dumbbell-shaped pillar 77.

In a further embodiment, a second T-shaped post 75 extends through the fifth flap 71 and a fifth dumbbell-shaped post 77 extends through the fifth flap 71 and the sixth flap 72.

Specifically, the lower middle portion of the fifth movable plate 71 is movably connected to a seventh movable plate 73 through a fourth dumbbell-shaped column 76, the pair of third T-shaped columns 11 respectively penetrate through the seventh movable plate 73 and the third movable plate 63, the upper middle portion of the sixth movable plate 72 is movably connected to an eighth movable plate 74 through a sixth dumbbell-shaped column 78, and the pair of fourth T-shaped columns 12 respectively penetrate through the eighth movable plate 74 and the fourth movable plate 64.

In a further embodiment, the movement of the engaging plate 5 drives the seventh movable plate 73 and the eighth movable plate 74 to rotate, and under the engaging action of the fourth dumbbell-shaped column 76, the rotation of the seventh movable plate 73 drives the fifth movable plate 71 to rotate around the second T-shaped column 75, and the rotation of the fifth movable plate 71 drives the sixth movable plate 72 to rotate.

Specifically, the side wall of the moving plate 8 is provided with a first groove 81 and a third groove 83, the middle of the inner top wall of the third groove 83 is welded with a push plate 84, the front surface of the moving plate 8 is provided with a second groove 82, the inner top wall of the second groove 82 is welded with a pair of fifth T-shaped columns 13, and the pair of fifth T-shaped columns 13 respectively penetrate through the sixth moving plate 72 and the second moving plate 62.

In a further embodiment, the first groove 81 is designed to facilitate the movement of the second movable plate 62 and the sixth movable plate 72, the second groove 82 is designed to facilitate the fixing of the pair of fifth T-shaped posts 13, the push plate 84 is designed to enable a product higher than a set value to be scraped forwards or backwards, and the third groove 83 is designed to prevent an excessive product from splashing.

The working principle is as follows:

the actuating cylinder 4 pushes the connecting plate 5 to move in the horizontal direction, the movement of the connecting plate 5 drives the third flap 63 and the seventh flap 73 to rotate around the corresponding pair of third T-shaped posts 11, and simultaneously, drives the fourth flap 64 and the eighth flap 74 to rotate around the corresponding pair of fourth T-shaped posts 12, the rotation of the third flap 63 drives the first flap 61 to rotate around the first T-shaped post 65, the rotation of the first flap 61 and the fourth flap 64 drives the second flap 62 to rotate, the rotation of the seventh flap 73 drives the fifth flap 71 to rotate around the second T-shaped post 75, the rotation of the fifth flap 71 and the eighth flap 74 drives the sixth flap 72 to rotate, the rotation of the second flap 62 and the sixth flap 72 drives the moving plate 8 to move in the horizontal direction, so that the moving plate 8 scrapes the products higher than the setting value forward or backward, and then the stacking height of the work pieces is controlled, so that the work pieces are uniformly laid on the mesh belt conveying channel 1, the labor cost is saved, the stability of the height of the work pieces is ensured, and the product quality is favorably improved.

The above description is only the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can substitute or change the technical solution and the improvement concept of the present invention within the technical scope disclosed in the present invention.

Claims (6)

1. The utility model provides a guipure stove stone limit for height device, includes guipure transfer passage (1), its characterized in that: the upper surface of the mesh belt conveying channel (1) is fixedly connected with a door-shaped supporting plate (2), a vertical plate (3) is welded in the middle of the upper end of the door-shaped supporting plate (2), a cylinder (4) is fixedly connected to one side wall of the vertical plate (3), the outlet end of the cylinder (4) is fixedly connected with a connecting plate (5), the bottom of the connecting plate (5) is welded with a pair of third T-shaped columns (11) and a pair of fourth T-shaped columns (12), the other end of the connecting plate (5) is welded with an inner pipe (9), the outer wall of the inner pipe (9) is connected with an outer pipe (10) in a sliding way, a moving plate (8) is welded at the other end of the outer tube (10), a first movable mechanism (6) and a second movable mechanism (7) are arranged between the door-shaped supporting plate (2) and the moving plate (8), the first movable mechanism (6) and the second movable mechanism (7) are in mirror symmetry.

2. The material spreading and height limiting device of the mesh belt furnace as claimed in claim 1, wherein: the first movable mechanism (6) comprises a first T-shaped column (65), the lower end of the first T-shaped column (65) is welded to the upper surface of the door-shaped supporting plate (2), a first movable plate (61) is movably connected to the outer wall of the first T-shaped column (65), and a second movable plate (62) is movably connected to the bottom of the other end of the first movable plate (61) through a second dumbbell-shaped column (67).

3. The material spreading and height limiting device of the mesh belt furnace as claimed in claim 2, wherein: the middle part of the lower end of the first movable plate (61) is movably connected with a third movable plate (63) through a first dumbbell-shaped column (66), the first dumbbell-shaped column (66) penetrates through the first movable plate (61) and the third movable plate (63), the middle part of the upper end of the second movable plate (62) is movably connected with a fourth movable plate (64) through a third dumbbell-shaped column (68), and the third dumbbell-shaped column (68) penetrates through the second movable plate (62) and the fourth movable plate (64).

4. The material spreading and height limiting device of the mesh belt furnace as claimed in claim 1, wherein: the second movable mechanism (7) comprises a second T-shaped column (75), the lower end of the second T-shaped column (75) is welded to the upper surface of the door-shaped supporting plate (2), a fifth movable plate (71) is movably connected to the outer wall of the second T-shaped column (75), and a sixth movable plate (72) is movably connected to the other end of the fifth movable plate (71) through a fifth dumbbell-shaped column (77).

5. The material spreading and height limiting device of the mesh belt furnace as claimed in claim 4, wherein: the middle part of the lower end of the fifth movable plate (71) is movably connected with a seventh movable plate (73) through a fourth dumbbell-shaped column (76), the pair of third T-shaped columns (11) respectively penetrate through the seventh movable plate (73) and the third movable plate (63), the middle part of the upper end of the sixth movable plate (72) is movably connected with an eighth movable plate (74) through a sixth dumbbell-shaped column (78), and the pair of fourth T-shaped columns (12) respectively penetrate through the eighth movable plate (74) and the fourth movable plate (64).

6. The material spreading and height limiting device of the mesh belt furnace as claimed in claim 5, wherein: open on the lateral wall of movable plate (8) and have first recess (81) and third recess (83), the welding of the interior roof middle part of third recess (83) has push pedal (84), open the front of movable plate (8) has second recess (82), the welding of the interior roof of second recess (82) has a pair of fifth T shape post (13), sixth fly leaf (72), second fly leaf (62) are run through respectively to a pair of fifth T shape post (13).

Images