CN220772315U - Stirring type weighing device - Google Patents

Abstract

The utility model relates to the technical field of mechanical equipment, in particular to a stirring type weighing device which comprises a frame body, a plurality of feeding components, a supporting seat and a stirring box which are positioned in the frame body, a weighing device arranged on the supporting seat, a discharging stirring device arranged on the stirring box and a box body outlet arranged on the stirring box, wherein the stirring box is connected with an induction end of the weighing device; the feeding assembly comprises a feeding box arranged on the frame body and positioned above the stirring box, a feeding inlet arranged on the feeding box and a feeding stirring device arranged on the feeding box, the structure is compact, the discharging stirring device can directly stir materials in the stirring box, the stirring box is directly arranged on the sensing end of the weighing device, the weighing device can directly weigh the weight of the materials added in the stirring box, and the external pumping device can directly pump the weighed and uniformly stirred materials out of the stirring box, so that the structure is simplified, and the production cost is saved.

Description

Stirring type weighing device

Technical Field

The utility model relates to the technical field of mechanical equipment, in particular to a stirring type weighing machine.

Background

For some light textiles, whether the usage amount is accurate can affect the quality of the final product, and the cost of the light textiles is generally higher, and if the light textiles are used too much, waste can be caused, and the cost is increased. Such as sponge, fiber cotton, regenerated cotton, and the like, when used in filling products, require precise weighing and uniform mixing of the mass of these cotton textiles so that the products can be filled to the proper amount, ensuring the quality of the products. In patent application No. cn201921102277.X, entitled electronic weighing system, a weighing assembly is disclosed comprising a feeding mechanism, a discharging mechanism connected to said feeding mechanism, and a weighing assembly; the feeding mechanism comprises: the device comprises a first bracket, a first feed inlet arranged on the first bracket and a coaming arranged at the lower part of the first bracket; the discharging mechanism comprises: the stirring device comprises a stirring box arranged below the coaming and a stirring roller device arranged in the stirring box, wherein a first discharge hole is formed in one side of the stirring box; the weighing assembly includes: the weighing hopper, the weighing sensor that sets up the weighing hopper below, and with second feed inlet, the third feed inlet that the weighing hopper is connected, the second feed inlet with first discharge gate is connected.

This patent stirs the material through the agitator tank, then weighs the material through the weighing hopper, and the structure is complicated, and occupation space is big, and manufacturing cost is high. Thus, the drawbacks are quite apparent and there is a need to provide a solution.

Disclosure of Invention

In order to solve the technical problems, the utility model aims to provide a stirring type weighing device.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the stirring type weighing device comprises a frame body, a plurality of feeding components, a supporting seat and a stirring box which are positioned in the frame body, a weighing device arranged on the supporting seat, a discharging stirring device which is arranged on the stirring box and can stir materials in the stirring box, and a box body outlet which is arranged on the stirring box, wherein the stirring box is connected with an induction end of the weighing device; the feeding assembly comprises a feeding box arranged on the frame body and positioned above the stirring box, a feeding inlet arranged on the feeding box and a feeding stirring device arranged on the feeding box and capable of stirring materials in the feeding box; the feed outlets of the feed boxes can be respectively communicated with the box body inlets of the stirring boxes.

Further, the discharging stirring device comprises a driven wheel positioned outside the stirring box, a discharging stirrer arranged on the outer side of the stirring box, a driving wheel arranged at the output end of the discharging stirrer, a driving belt respectively wound outside the driving wheel and the driven wheel, and a discharging stirring assembly rotationally arranged in the stirring box, wherein the discharging stirring assembly penetrates through the stirring box and is connected with the driven wheel through a key.

Further, the discharging stirring assembly comprises a discharging stirring shaft, a discharging stirring rod and a discharging scattering plate, wherein the discharging stirring shaft penetrates through the stirring box and is connected with the driven wheel in a key manner, the discharging stirring rod is arranged on the discharging stirring shaft, and the discharging scattering plate is arranged on the discharging stirring rod.

Further, a stirring observation window is rotatably arranged on the stirring box.

Further, a feeding observation window is arranged on the feeding box.

Further, the feeding stirring device comprises a first feeding stirring assembly and a first feeding stirrer arranged on the feeding box, the first feeding stirring assembly comprises a first gear and a second gear which are respectively and rotationally arranged at one end of the feeding box far away from the first feeding stirrer, and a first roller structure and a second roller structure which are respectively arranged in the feeding box, one end of the first roller structure protrudes out of the feeding box and is connected with the output end of the first feeding stirrer, the other end of the first roller structure protrudes out of the feeding box and is connected with a first gear key, one end of the second roller structure protrudes out of the feeding box and is connected with a second gear key, and the first gear is meshed with the second gear.

Further, the first roller structure comprises a first feeding stirring shaft, two mounting plates respectively sleeved outside two ends of the first feeding stirring shaft and a rotating plate with two ends respectively connected with the two mounting plates, one end of the first feeding stirring shaft protrudes outside the feeding box and is connected with the output end of the first feeding stirrer, and the other end of the first feeding stirring shaft protrudes outside the feeding box and is connected with the first gear key.

Further, the first roller structure and the second roller structure are arranged side by side.

Further, the pan feeding agitating unit includes third pan feeding stirring subassembly, second pan feeding stirring subassembly, sets up the second pan feeding agitator on the feed box and respectively with the transmission structure that third pan feeding stirring subassembly and second pan feeding stirring subassembly transmission are connected, the second pan feeding stirring subassembly is including setting up in the cylindrical roller of feed box, a plurality of dispersible tablets that set up on the roller and run through roller and with roller fixed connection's second pan feeding (mixing) shaft, the one end of second pan feeding (mixing) shaft is protruding outside the feed box and be connected with the output of second pan feeding agitator, the other end of second pan feeding (mixing) shaft is protruding outside the feed box and be connected with transmission structure transmission, the second pan feeding (mixing) shaft is located the below of third pan feeding (mixing) subassembly.

The utility model has the beneficial effects that: the utility model has compact structure, the support seat and the stirring box are arranged in the frame body, the feeding component and the stirring box are respectively supported by the frame body and the support seat, the feeding component moves in the feeding process, the precision of the weighing device is not interfered, and the weighing device is favorable for accurately calculating the weight of the stirring box after feeding. The feeding stirring device is additionally arranged, so that materials are prevented from being accumulated or blocked at the feeding outlet of the feeding box in the feeding process, the materials are uniformly conveyed into the feeding box, and the stirring of multiple subsequent materials is facilitated. In addition, the discharging stirring device can directly stir the materials in the stirring box, the stirring box is directly arranged on the induction end of the weighing device, the weighing device can directly weigh the weight of the materials added in the stirring box, and the external material pumping device can directly pump the weighed and uniformly stirred materials out of the stirring box, so that the structure of the utility model is simplified, and the production cost is saved.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present utility model.

Fig. 2 is a schematic partial perspective view of a first embodiment of the present utility model.

Fig. 3 is a schematic perspective view of a discharge stirring assembly according to a first embodiment of the present utility model.

Fig. 4 is a schematic partial perspective view of a first embodiment of the present utility model.

Fig. 5 is a cross-sectional view of a first embodiment of the present utility model.

Fig. 6 is a schematic perspective view of a feeding stirring device according to a first embodiment of the present utility model.

Fig. 7 is a schematic perspective view of a feeding stirring device according to a second embodiment of the present utility model.

Reference numerals illustrate:

1. a frame body; 2. a feed assembly; 3. a support base; 4. a stirring tank; 5. a weighing device; 6. a discharging and stirring device; 7. a box outlet; 8. stirring observation window; 9. a feed observation window; 21. a feed box; 22. a feed inlet; 23. a feeding stirring device; 24. a first feed stirrer; 25. the first feeding stirring assembly; 26. a first gear; 27. a second gear; 28. a first roller structure; 29. a second roller structure; 30. a first feeding stirring shaft; 31. a mounting plate; 32. a rotating plate; 33. a third feeding stirring assembly; 34. a second feeding stirrer; 35. a second feeding stirring assembly; 36. a transmission structure; 37. a roller; 38. a dispersible tablet; 39. a second feeding stirring shaft; 61. driven wheel; 62. a driving wheel; 63. a discharge stirrer; 64. a discharging and stirring assembly; 65. a discharging stirring shaft; 66. discharging stirring rod; 67. and discharging and scattering the plate.

Detailed Description

The utility model will be further described with reference to examples and drawings, to which reference is made, but which are not intended to limit the scope of the utility model.

Embodiment one.

As shown in fig. 1 to 6, the stirring type weighing device provided by the utility model comprises a frame body 1, a plurality of feeding components 2, a supporting seat 3 and a stirring box 4 which are positioned in the frame body 1, a weighing device 5 arranged on the supporting seat 3, a discharging stirring device 6 which is arranged on the stirring box 4 and can stir materials in the stirring box 4, and a box body outlet 7 which is arranged on the stirring box 4, wherein the stirring box 4 is connected with an induction end of the weighing device 5; the feeding assembly 2 comprises a feeding box 21 arranged on the frame body 1 and positioned above the stirring box 4, a feeding inlet 22 arranged on the feeding box 21 and a feeding stirring device 23 arranged on the feeding box 21 and capable of stirring materials in the feeding box 21; the feed outlets of the plurality of feed tanks 21 can be respectively communicated with the tank inlets of the agitator tank 4.

Specifically, the stirring tank 4 is placed on the weighing device 5 and is connected with the weighing device 5, and the weighing device 5 is used for sensing the weight change of the stirring tank 4; the plurality of the feeding inlets 22 are respectively communicated with a plurality of external feeding devices, and the box body outlets 7 are respectively communicated with an external pumping machine. In the actual use process, a material is supplied into a feed box 21 through an external feeding device, the material conveyed into the feed box 21 is stirred by a feeding stirring device 23 and then conveyed into a stirring box 4 through a feed outlet, after the weighing device 5 senses that the weight of the stirring box 4 is increased to a preset weight, the external feeding device stops feeding the material into the feed box 21, and the material is added completely. Then another external feeding device continues to supply another material to the other feeding box 21, the material fed into the feeding box 21 is stirred by the feeding stirring device 23 and then is fed into the stirring box 4 through the feeding outlet, and after the weighing device 5 senses that the weight of the stirring box 4 is increased to a preset weight, the external feeding device stops feeding the material into the feeding box 21, and the material is added. The above operation is repeated until various materials are quantitatively conveyed into the stirring tank 4 one by one, then the various materials are mixed in the stirring tank 4 through the discharging stirring device 6 in the stirring tank 4, after being uniformly mixed, the mixed various materials are pumped out of the stirring tank 4 from the tank outlet 7 through the external pumping machine, and therefore the precisely quantitative mixed various materials are obtained. The utility model has compact structure, the support seat 3 and the stirring box 4 are arranged in the frame body 1, the feeding component 2 and the stirring box 4 are respectively supported by the frame body 1 and the support seat 3, the feeding component 2 does not interfere the precision of the weighing device 5 due to the movement in the feeding process, and the weighing device 5 is favorable for accurately calculating the weight of the stirring box 4 after feeding. The feeding stirring device 23 is additionally arranged, so that materials are prevented from being accumulated or blocked at the feeding outlet of the feeding box 21 in the feeding process, the materials are uniformly conveyed into the feeding box 21, and the subsequent stirring of various materials is facilitated. In addition, the material in the stirring box 4 can be directly stirred by the discharging stirring device 6, the stirring box 4 is directly arranged on the induction end of the weighing device 5, the weighing device 5 can directly weigh the weight of the material added in the stirring box 4, and the material which is weighed and uniformly stirred can be directly pumped out from the stirring box 4 by the external pumping device, so that the structure of the utility model is simplified, and the production cost is saved.

Further, the discharging stirring device 6 includes a driven wheel 61 located outside the stirring tank 4, a discharging stirrer 63 disposed on the outer side of the stirring tank 4, a driving wheel 62 disposed at an output end of the discharging stirrer 63, a driving belt (not shown in the figure) respectively wound around the driving wheel 62 and the driven wheel 61, and a discharging stirring assembly 64 rotatably disposed in the stirring tank 4, where the discharging stirring assembly 64 penetrates through the stirring tank 4 and is connected with the driven wheel 61 by a key.

Specifically, the discharging stirring assembly 64 includes a discharging stirring shaft 65 penetrating through the stirring tank 4 and connected with the driven wheel 61 in a key manner, a discharging stirring rod 66 arranged on the discharging stirring shaft 65, and a discharging scattering plate 67 arranged on the discharging stirring rod 66. In the actual use process, the driving wheel 62 is driven to rotate by the discharging stirrer 63, and the driving wheel 62 drives the driven wheel 61, the discharging stirring shaft 65, the discharging stirring rod 66 and the discharging scattering plate 67 to rotate by a driving belt, so that materials in the stirring tank 4 are scattered. The discharging stirring device 6 has a simple structure and is convenient to connect and cooperate with the stirring box 4. The discharging and scattering plate 67 is additionally arranged, so that the contact area between the discharging and stirring assembly 64 and the materials in the rotating process is increased, and the materials in the stirring box 4 can be rapidly scattered or stirred uniformly.

Further, the stirring tank 4 is rotatably provided with a stirring observation window 8. The stirring observation window 8 is additionally arranged, so that the stirring condition of the materials in the stirring box 4 can be intuitively observed. Under the shut down state, rotatable stirring observation window 8 is in order to open agitator tank 4, then cleans agitator tank 4 in, and the practicality is strong.

Further, the feeding box 21 is provided with a feeding observation window 9, and the structure and the function of the feeding observation window 9 are the same as or similar to those of the functional stirring observation window 8, and are not described herein.

Further, the feeding stirring device 23 includes a first feeding stirring assembly 25 and a first feeding stirrer 24 disposed on the feeding box 21, the first feeding stirring assembly 25 includes a first gear 26 and a second gear 27 which are respectively rotatably disposed at one end of the feeding box 21 far away from the first feeding stirrer 24, and a first roller structure 28 and a second roller structure 29 which are respectively disposed in the feeding box 21, one end of the first roller structure 28 protrudes outside the feeding box 21 and is connected with an output end of the first feeding stirrer 24, the other end of the first roller structure 28 protrudes outside the feeding box 21 and is connected with the first gear 26 in a key manner, one end of the second roller structure 29 protrudes outside the feeding box 21 and is connected with the second gear 27 in a key manner, and the first gear 26 is meshed with the second gear 27.

Specifically, the first drum structure 28 includes a first feeding stirring shaft 30, two mounting plates 31 respectively sleeved outside two ends of the first feeding stirring shaft 30, and a rotating plate 32 with two ends respectively connected with the two mounting plates 31, one end of the first feeding stirring shaft 30 protrudes outside the feeding box 21 and is connected with the output end of the first feeding stirrer 24, and the other end of the first feeding stirring shaft 30 protrudes outside the feeding box 21 and is connected with the first gear 26 in a key manner; the first roller structure 28 and the second roller structure 29 rotate in opposite directions, and the first roller structure 28 and the second roller structure 29 are arranged side by side. The first roller structure 28 and the second roller structure 29 are the same or similar, the discharge agitator 63 may be a motor, and the weighing device 5 may be an existing induction scale, which is not described herein. In the actual use process, the first feeding stirrer 24 drives the first feeding stirring shaft 30 to rotate, the first feeding stirring shaft 30 drives the mounting plate 31, the rotating plate 32, the first gear 26 and the second gear 27 to rotate, the rotating second gear 27 drives the second roller structure 29 to reversely rotate relative to the first roller structure 28, and the rotating plate 32 rotates and breaks up materials in the feeding box 21. The feeding stirring device 23 is simple in structure, and the materials are dispersed by continuously rotating the plurality of rotating plates 32 of the first roller structure 28 and the second roller structure 29, so that the dispersing and stirring efficiency of the materials is high.

Embodiment two.

The present embodiment is different from the first embodiment in that: as shown in fig. 7, the feeding stirring device 23 includes a third feeding stirring assembly 33, a second feeding stirring assembly 35, a second feeding stirrer 34 disposed on the feeding box 21, and a transmission structure 36 in transmission connection with the third feeding stirring assembly 33 and the second feeding stirring assembly 35, where the second feeding stirring assembly 35 includes a cylindrical roller 37 disposed in the feeding box 21, a plurality of dispersing sheets 38 disposed on the roller 37, and a second feeding stirring shaft 39 penetrating the roller 37 and fixedly connected with the roller 37, one end of the second feeding stirring shaft 39 protrudes outside the feeding box 21 and is connected with an output end of the second feeding stirrer 34, and the other end of the second feeding stirring shaft 39 protrudes outside the feeding box 21 and is in transmission connection with the transmission structure 36, and the second feeding stirring assembly 35 is located below the third feeding stirring assembly 33.

Specifically, the transmission structure 36 may adopt an existing gear belt transmission manner, the second feeding stirrer 34 may adopt a driving structure with a motor and a speed reducer, and the structure of the third feeding stirring assembly 33 is the same as or similar to that of the discharging stirring assembly 64, which will not be described herein. In the actual use process, the second feeding stirring shaft 39, the rollers 37 and the dispersing pieces 38 are driven to rotate in the feed box 21 by the second feeding stirrer 34, the second feeding stirring shaft 39 rotates and drives the third feeding stirring assembly 33 to rotate by the transmission structure 36, and the third feeding stirring assembly 33 and the second feeding stirring assembly 35 which rotate up and down fully stir materials in the stirring box 4, so that the materials are convenient to stir.

The other structures of the present embodiment are the same as those of the first embodiment, and the same structure may be resolved by the first embodiment, which is not described in detail herein.

All technical features of both embodiments can be freely combined according to actual needs.

The foregoing embodiments are preferred embodiments of the present utility model, and in addition, the present utility model may be implemented in other ways, and any obvious substitution is within the scope of the present utility model without departing from the concept of the present utility model.

Claims (9)

1. A stirred scale, characterized in that: the device comprises a frame body (1), a plurality of feeding components (2), a supporting seat (3) and a stirring box (4) which are arranged in the frame body (1), a weighing device (5) arranged on the supporting seat (3), a discharging stirring device (6) which is arranged on the stirring box (4) and can stir materials in the stirring box (4), and a box body outlet (7) which is arranged on the stirring box (4), wherein the stirring box (4) is connected with an induction end of the weighing device (5); the feeding assembly (2) comprises a feeding box (21) arranged on the frame body (1) and positioned above the stirring box (4), a feeding inlet (22) arranged on the feeding box (21) and a feeding stirring device (23) arranged on the feeding box (21) and capable of stirring materials in the feeding box (21); the feed outlets of the plurality of feed boxes (21) can be respectively communicated with the box body inlets of the stirring box (4).

2. A stirred tank scale as claimed in claim 1, wherein: the discharging stirring device (6) comprises a driven wheel (61) positioned outside the stirring tank (4), a discharging stirrer (63) arranged on the outer side of the stirring tank (4), a driving wheel (62) arranged at the output end of the discharging stirrer (63), a driving belt respectively arranged outside the driving wheel (62) and the driven wheel (61) in a winding manner, and a discharging stirring assembly (64) rotationally arranged in the stirring tank (4), wherein the discharging stirring assembly (64) penetrates through the stirring tank (4) and is connected with the driven wheel (61) in a key manner.

3. A stirred scale according to claim 2, characterised in that: the discharging stirring assembly (64) comprises a discharging stirring shaft (65) penetrating through the stirring box (4) and connected with the driven wheel (61) in a key mode, a discharging stirring rod (66) arranged on the discharging stirring shaft (65) and a discharging scattering plate (67) arranged on the discharging stirring rod (66).

4. A stirred tank scale as claimed in claim 1, wherein: the stirring box (4) is rotatably provided with a stirring observation window (8).

5. A stirred tank scale as claimed in claim 1, wherein: the feeding box (21) is provided with a feeding observation window (9).

6. A stirred tank scale as claimed in any one of claims 1 to 5, wherein: the feeding stirring device (23) comprises a first feeding stirring assembly (25) and a first feeding stirrer (24) arranged on the feeding box (21), the first feeding stirring assembly (25) comprises a first gear (26) and a second gear (27) which are respectively arranged at one end of the feeding box (21) far away from the first feeding stirrer (24) in a rotating mode, and a first roller structure (28) and a second roller structure (29) which are respectively arranged in the feeding box (21), one end of the first roller structure (28) protrudes out of the feeding box (21) and is connected with the output end of the first feeding stirrer (24), the other end of the first roller structure (28) protrudes out of the feeding box (21) and is connected with the first gear (26) in a key mode, one end of the second roller structure (29) protrudes out of the feeding box (21) and is connected with the second gear (27) in a key mode, and the first gear (26) is meshed with the second gear (27).

7. The stirring scale of claim 6, wherein: the first roller structure (28) comprises a first feeding stirring shaft (30), two mounting plates (31) sleeved outside the two ends of the first feeding stirring shaft (30) respectively, and rotating plates (32) with the two ends connected with the two mounting plates (31) respectively, wherein one end of the first feeding stirring shaft (30) protrudes outside the feeding box (21) and is connected with the output end of the first feeding stirrer (24), and the other end of the first feeding stirring shaft (30) protrudes outside the feeding box (21) and is connected with the first gear (26) through a key.

8. The stirring scale of claim 6, wherein: the first roller structure (28) and the second roller structure (29) are arranged side by side.

9. A stirred tank scale as claimed in any one of claims 1 to 5, wherein: the feeding stirring device (23) comprises a third feeding stirring assembly (33), a second feeding stirring assembly (35), a second feeding stirrer (34) arranged on the feeding box (21) and a transmission structure (36) respectively connected with the third feeding stirring assembly (33) and the second feeding stirring assembly (35) in a transmission mode, the second feeding stirring assembly (35) comprises a cylindrical roller (37) arranged in the feeding box (21), a plurality of dispersing sheets (38) arranged on the roller (37) and a second feeding stirring shaft (39) penetrating through the roller (37) and fixedly connected with the roller (37), one end of the second feeding stirring shaft (39) protrudes out of the feeding box (21) and is connected with the output end of the second feeding stirrer (34), the other end of the second feeding stirring shaft (39) protrudes out of the feeding box (21) and is connected with the transmission structure (36) in a transmission mode, and the second feeding stirring assembly (35) is located below the third feeding stirring assembly (33).