CN210211462U - Flat plate type solid-liquid separation device - Google Patents

Abstract

The utility model discloses a flat solid-liquid separation equipment, including the base member, base member one end has the feed inlet, and the other end is for having the solid discharge mouth, and the lower extreme is the export of water, still be equipped with in the base member: the material supporting device comprises rotors, rotating shafts and a pressing plate, wherein the rotors and the rotors are used for supporting materials, each rotating shaft is provided with a plurality of triangular rotors in parallel, and the triangular rotors rotate to transfer the materials from a feeding end to a discharging end; the solid-liquid mixture is fully extruded through the pressing plate. The transmission part is driven by gear motor and is crossed to constitute by the four connecting rods of double crank, a flat solid-liquid separation equipment, can guarantee the cleanliness of play water. Because the triangular rotor can be completely meshed in the rotating process, namely, intermittent tangential contact is avoided, the contact is continuous, no material is omitted, and blockage cannot occur.

Description

Flat plate type solid-liquid separation device

Technical Field

The utility model belongs to the solid-liquid separation equipment field especially relates to a flat solid-liquid separation equipment.

Background

The flat-plate solid-liquid separation device used in the market at present is driven by a chain or a gear, the chain transmission has high noise, and the chain length needs to be adjusted after the flat-plate solid-liquid separation device is used for a period of time, so that the flat-plate solid-liquid separation device is troublesome. The gear transmission can stably mesh transmission, but is high in cost, not suitable for installation, and prone to fatigue failure and gear abrasion.

SUMMERY OF THE UTILITY MODEL

The utility model aims at the above disadvantages of the prior flat plate type solid-liquid separation, and provides a double crank link mechanism solid-liquid separation device with better performance, convenient installation and simple and compact structure. The crank and the rotating shaft including the connecting rod and the triangular rotor are abbreviated in the text, with the letter serial number removed from the original name.

The utility model provides a technical problem provide following scheme:

a flat plate type solid-liquid separation device: the automatic feeding device comprises a feeding hole, a motor, a water outlet, a pressing plate, a ninth triangular rotor, a first triangular rotor, a second triangular rotor, a third triangular rotor, a fourth triangular rotor, a fifth triangular rotor, a sixth triangular rotor, a seventh triangular rotor, an eighth triangular rotor, a ninth rotating shaft, a first rotating shaft, a second rotating shaft, a third rotating shaft, a fourth rotating shaft, a fifth rotating shaft, a sixth rotating shaft, a seventh rotating shaft, an eighth rotating shaft, a tenth crank, a first crank, a second crank, a third crank, a fourth crank, a fifth crank, a sixth crank, a seventh crank, an eighth crank, a ninth crank, a sieve bar, a cylinder, a discharging hole, a tenth connecting rod, a first connecting rod, a second connecting rod, a third connecting rod, a fourth connecting rod, a fifth connecting rod, a sixth connecting rod, a seventh connecting rod, an eighth connecting rod, a ninth connecting rod and a speed reducer. The second crank, the third crank, the second connecting rod, the first rotating shaft and the second rotating shaft form a group of double-crank connecting rod mechanisms. The two triangular rotors are filled with sun strips, and the motor is connected with the speed reducer, connected with the first crank and the first connecting rod through the first crank, and transmits power into the double-crank connecting rod mechanism.

The utility model relates to a flat solid-liquid separation equipment, its double crank link mechanism, stable in structure and easily realization, and can reach fine transmission effect, reduce cost has avoided current drive mechanism's shortcoming, and the triangle-shaped rotor can the self-cleaning gap between the screen cloth, can not take place the jam.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic view of a crank four-bar linkage.

The reference number in the figure is 1, a feed inlet; 2. an electric motor; 3. a water outlet; 4. pressing a plate; 5. a ninth triangular rotor; 51. a first triangular rotor; 52. a second triangular rotor; 53. a third triangular rotor; 54. a fourth triangular rotor; 55. a fifth triangular rotor; 56. a sixth triangular rotor; 57. a seventh triangular rotor; 58. an eighth triangular rotor; 6. a ninth rotating shaft; 61. a first rotating shaft; 62. a second rotating shaft; 63. a third rotating shaft; 64. a fourth rotating shaft; 65. a fifth rotating shaft; 66. a sixth rotating shaft; 67. a seventh rotating shaft; 68. an eighth rotating shaft; 7. a tenth crank; 71. a first crank; 72. a second crank; 73. a third crank; 74. a fourth crank; 75. a fifth crank; 76. a sixth crank; 77. a seventh crank; 78. an eighth crank; 79. A ninth crank; 8. screen bars; 9. a cylinder; 10. a discharge port; 11. a tenth link; 111. a first link; 112. a second link; 113. a third link; 114. a fourth link; 115. a fifth link; 116. a sixth link; 117. a seventh connecting rod; 118. An eighth link; 119. a ninth link; 12. and a speed reducer.

Detailed Description

The invention will be further explained by the embodiments with reference to the drawings:

the crank and the rotating shaft including the connecting rod and the triangular rotor are abbreviated in the text, with the letter serial number removed from the original name.

Referring to fig. 1 and 2, a flat-plate type solid-liquid separation apparatus includes: the feed inlet 1, the motor 2, the water discharge port 3, the pressing plate 4, the triangular rotor 5, the first triangular rotor 51, the second triangular rotor 52, the third triangular rotor 53, the fourth triangular rotor 54, the fifth triangular rotor 55, the sixth triangular rotor 56, the seventh triangular rotor 57, the eighth triangular rotor 58, the ninth rotating shaft 6, the first rotating shaft 61, the second rotating shaft 62, the third rotating shaft 63, the fourth rotating shaft 64, the fifth rotating shaft 65, the sixth rotating shaft 66, the seventh rotating shaft 67, the eighth rotating shaft 68, the tenth crank 7, the first crank 71, the second crank 72, the third crank 73, the fourth crank 74, the fifth crank 75, the sixth crank 76, the seventh crank 77, the eighth crank 78, the ninth crank 79, the screen bar 8, the cylinder 9, the discharge port 10, the tenth connecting rod 11, the first connecting rod 111, the second connecting rod 112, the third connecting rod 113, the fourth connecting rod 114, the fifth connecting rod 115, a sixth link 116, a seventh link 117, an eighth link 118, a ninth link 119, and the reducer 12. The second crank 72, the third crank 73, the second connecting rod 112, the first rotating shaft 61 and the second rotating shaft 62 form a double-crank connecting rod mechanism. The adjacent double-crank connecting rod mechanisms share one crank and one rotating shaft, triangular rotors on the rotating shaft are all the same and are arranged at equal intervals, strips are filled between the two triangular rotors, the motor 2 is connected with the speed reducer 12 and connected with the first crank 71, and the first crank 71 is connected with the first connecting rod 111 to transmit power into the formed double-crank connecting rod mechanisms. The feed inlet 1, the discharge outlet 10 and the water outlet 3 are all arranged in the basal body.

1. When the device starts to work, the motor 2 starts to rotate, materials enter the solid-liquid separation zone from the feeding hole 1, the double-crank connecting rod mechanism drives all the rotating shafts to synchronously rotate, the triangular rotors on the double-crank connecting rod mechanism are tightly matched with the adjacent triangular rotors, the distance between the screen bars 8 among the rotors and the rotors is less than 1mm, and the materials are fully dehydrated through the pressure between the triangular rotors and the pressing plate 4. And the triangular rotor can automatically clean gaps among the screens, materials reach the discharge port 10, and water is directly discharged through the water discharge port 3.

2. Referring to fig. 2, the drawing is a schematic diagram of the whole double-crank transmission mechanism, and the transmission mode is that the motor 2 and the speed reducer 12 are connected, and then the transmission mechanism is connected with the first crank 71, the first crank 71 is further connected with the first connecting rod 111, the first connecting rod 111 is connected with the second crank 72, the second crank 72 is connected with the second connecting rod 112, the second connecting rod 112 is connected with the third crank 73, and the second crank 72 and the third crank 73 are respectively connected with the first rotating shaft 61 and the second rotating shaft 62 to transmit power, and the whole transmission mechanism shown in fig. 2 is obtained by sequentially referring to fig. 2. The synchronous rotation of different axes can be realized through the length of the connecting rod under the condition of different center distances, and the synchronous rotation mechanism is convenient to install and maintain, low in cost and easy to realize.

Claims (2)

1. A flat plate type solid-liquid separation device comprising: feed inlet (1), motor (2), water outlet (3), press plate (4), triangular rotor (5), first triangular rotor (51), second triangular rotor (52), third triangular rotor (53), fourth triangular rotor (54), fifth triangular rotor (55), sixth triangular rotor (56), seventh triangular rotor (57), eighth triangular rotor (58), ninth rotating shaft (6), first rotating shaft (61), second rotating shaft (62), third rotating shaft (63), fourth rotating shaft (64), fifth rotating shaft (65), sixth rotating shaft (66), seventh rotating shaft (67), eighth rotating shaft (68), tenth crank (7), first crank (71), second crank (72), third crank (73), fourth crank (74), fifth crank (75), sixth crank (76), seventh crank (77), the sieve bar mechanism comprises an eighth crank (78), a ninth crank (79), sieve bars (8), a cylinder (90), a discharge hole (10), a tenth connecting rod (11), a first connecting rod (111), a second connecting rod (112), a third connecting rod (113), a fourth connecting rod (114), a fifth connecting rod (115), a sixth connecting rod (116), a seventh connecting rod (117), an eighth connecting rod (118), a ninth connecting rod (119) and a speed reducer (12), wherein the second crank (72), the third crank (73), the second connecting rod (112), a first rotating shaft (61) and a second rotating shaft (62) form a set of double-crank connecting rod mechanism, and the sieve bars (8) are arranged at fixed intervals.

2. The flat-plate solid-liquid separation device according to claim 1, wherein: the double-crank connecting rod mechanism is a first group of double-crank connecting rod mechanisms consisting of a second crank (72), a third crank (73), a second connecting rod (112), a first rotating shaft (61) and a second rotating shaft (62), the double-crank connecting rod mechanisms are the same in structure and form a plurality of groups of double-crank connecting rod mechanisms, and a transmission device is formed jointly, wherein adjacent double-crank connecting rod mechanisms share one crank and one rotating shaft, triangular rotors on one rotating shaft are the same and are arranged at equal intervals, screen bars (8) are filled between the two triangular rotors, and an electric motor (2) is connected with a speed reducer (12), is connected with the first crank and the first connecting rod, and transmits power into the double-crank connecting rod mechanisms.

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