CN113321000B - Flour ration taking device - Google Patents

Abstract

The invention relates to a taking device, in particular to a flour quantitative taking device. The invention provides a flour quantitative taking device which can be used for taking flour quantitatively rapidly, blanking flour and stirring and collecting flour, so that the labor intensity of workers can be reduced. A flour dosing device comprising: the device comprises a base and a first support frame, wherein the base is provided with the first support frame; the top of the first support frame is provided with a storage bucket; the blanking assembly is connected between the upper part of the storage barrel and the top of the base; the quantitative taking component is arranged on the base, and the blanking component is matched with the quantitative taking component. According to the invention, the blanking assembly is arranged and matched with the quantitative taking assembly, so that the flour can be blanked, and workers can take the flour quantitatively according to use requirements; through unloading subassembly and anti-caking subassembly cooperation, can realize the stirring of flour.

Description

Flour ration taking device

Technical Field

The invention relates to a taking device, in particular to a flour quantitative taking device.

Background

Flour is mainly made of flour, chinese flour museums have a plurality of different kinds of flour, mainly have noodles, steamed bread and the like, workers generally need to quantitatively take flour before making noodles, steamed bread and the like, traditional quantitative taking flour generally needs to take a spoon to take out flour, time and energy of workers can be consumed, and the flour which is placed for a long time can be agglomerated, so that the efficiency of quantitatively taking flour is reduced.

Patent application number CN110238039A discloses a flour ration sieving mechanism, including landing leg and first motor etc. through pouring the flour into the collecting hopper, starts first motor reversal, can make the flour in the collecting hopper pour into the screening frame in, and the screening frame moves about and carries out the ration screening to the flour, and this invention simple structure, convenient operation has realized flour ration screening, but the operation process does not realize unloading and collection to the flour better, has reduced the quantitative work efficiency of flour.

Therefore, in order to solve the above-mentioned problems in the prior art, it is needed to design a flour quantitative taking device capable of taking flour rapidly and discharging flour and stirring and collecting flour, so as to reduce labor intensity of workers.

Disclosure of Invention

In order to overcome traditional ration and take flour, generally need the workman to take the ladle and take out flour, can consume workman's time and energy simultaneously, the caking can appear in the flour of standing still for a long time moreover to reduce the shortcoming of the efficiency of ration and taking flour, technical problem: the flour quantitative taking device can be used for taking flour quantitatively rapidly, blanking the flour and stirring and collecting the flour, so that the labor intensity of workers can be relieved.

The technical proposal is as follows: a flour quantitative taking device, which comprises:

the device comprises a base and a first support frame, wherein the base is provided with the first support frame;

the top of the first support frame is provided with a storage bucket;

the blanking assembly is connected between the upper part of the storage barrel and the top of the base;

the quantitative taking component is arranged on the base, and the blanking component is matched with the quantitative taking component.

Preferably, the blanking assembly comprises:

the base is provided with a second support frame, and the top of the second support frame is fixedly connected with the storage vat;

the speed reducing motor is arranged at the top of the storage barrel;

the first rotating shaft is arranged on the output shaft of the speed reducing motor;

the inner wall of the storage barrel is rotatably provided with a second rotating shaft;

the dust baffle plate is arranged on the second rotating shaft in a sliding manner;

the transmission device is connected between the upper side of the second rotating shaft and the upper side of the first rotating shaft and consists of two belt pulleys and a belt, one belt pulley is connected to the upper side of the first rotating shaft, the other belt pulley is connected to the upper side of the second rotating shaft, and the belt is wound between the two belt pulleys;

and a blanking plate is arranged at the lower side of the second rotating shaft.

Preferably, the quantitative taking component comprises:

the first sliding block is arranged on the base;

the upper part of the first sliding block is symmetrically provided with the first telescopic rod assemblies, and the number of the first telescopic rod assemblies is four;

the tray is connected between the tops of the four first telescopic rod assemblies, the first telescopic rod assemblies consist of a fourth telescopic rod and a fourth spring, the fourth spring is sleeved on the fourth telescopic rod, and two ends of the fourth spring are respectively connected to the first sliding block and the tray;

the collecting frame is arranged on the tray and is positioned below the storage bucket;

the second telescopic rod assembly is symmetrically arranged on the upper part of the first support frame;

the material breaking plate is connected between the end parts of the two second telescopic rod assemblies, each second telescopic rod assembly consists of a fifth telescopic rod and a fifth spring, the fifth telescopic rod is sleeved with the fifth spring, and two ends of the fifth spring are respectively connected to the first support frame and the material breaking plate;

the bottom of the material cutting plate is symmetrically provided with the guide rods;

the second sliding block is connected between the two guide rods in a sliding manner, and the material breaking plate and the second sliding block are contacted with the collecting frame;

and a screw is connected between the lower part of the material breaking plate and the upper part of the second sliding block in a threaded manner.

Preferably, the anti-caking assembly is further included, and the anti-caking assembly comprises:

an internal gear is arranged on the storage barrel, and the second rotating shaft is rotationally connected with the internal gear;

the upper part of the second rotating shaft is provided with a first straight gear;

the stirring rods are symmetrically and rotatably arranged on the inner wall of the inner gear, and the two stirring rods are rotatably connected with the dust baffle;

and the upper parts of the two stirring rods are respectively provided with a second spur gear, and the two second spur gears are meshed with the first spur gears.

Preferably, the sliding assembly is further included, and the sliding assembly includes:

the base is provided with a sliding rail, and the first sliding block is connected with the sliding rail in a sliding manner;

the first sliding block is symmetrically provided with a third telescopic rod assembly, the third telescopic rod assembly consists of a sixth telescopic rod and a sixth spring, the sixth telescopic rod is sleeved with the sixth spring, and two ends of the sixth spring are respectively connected to the first sliding block and the sliding rail;

the top of the base is symmetrically provided with a fifth supporting frame;

the upper parts of the two fifth support frames are provided with fourth telescopic rod assemblies;

the first wedge blocks are arranged on the two fourth telescopic rod assemblies, the two first wedge blocks are matched with the first sliding blocks, the fourth telescopic rod assembly consists of a seventh telescopic rod and a seventh spring, the seventh telescopic rod is sleeved with the seventh spring, and two ends of the seventh spring are respectively connected to the first wedge blocks and the fifth supporting frame;

the handrail is arranged in the middle of the top of the first sliding block.

Preferably, the reset assembly comprises:

the base is provided with a third support frame;

the upper part of the third support frame is provided with a fifth telescopic rod assembly;

the connecting rod is connected between the tops of the two fifth telescopic rod assemblies, the connecting rod is connected with the third support frame in a sliding mode, the fifth telescopic rod assemblies are composed of an eighth telescopic rod and an eighth spring, the eighth telescopic rod is sleeved with the eighth spring, and two ends of the eighth spring are respectively connected to the third support frame and the connecting rod;

the two sides of the bottom of the connecting rod are provided with pressure rods;

the outer sides of the second wedge blocks and the fourth telescopic rod assemblies are respectively provided with a second wedge block, and the second wedge blocks on the same side are matched with the compression bars on the same side;

and the upper part of the tray is provided with a third wedge-shaped block, and the third wedge-shaped block is in contact fit with the second sliding block.

Preferably, the static eliminating assembly includes:

the top of the base is symmetrically provided with a fourth supporting frame;

the upper part of the fourth support frame is provided with a sliding rod in a sliding manner;

the sliding rod is sleeved with a third spring, and two ends of the third spring are respectively connected to the fourth supporting frame and the sliding rod;

the upper part of the fourth support frame is provided with a fixing ring;

the iron chain is arranged on the fixing ring and is matched with the ground in a contact way.

Preferably, the third spring is made of alloy steel.

The beneficial effects of the invention are as follows:

1. according to the invention, the blanking assembly is arranged and matched with the quantitative taking assembly, so that the flour can be blanked, and workers can take the flour quantitatively according to use requirements;

2. the flour can be stirred by matching the blanking component with the anti-caking component;

3. through the ration take the subassembly with remove the cooperation of static subassembly, can effectually prevent static to improve the efficiency that the flour was taken to the ration.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of a blanking assembly according to the present invention.

Fig. 3 is a schematic perspective view of the quantitative taking component of the present invention.

Fig. 4 is a schematic diagram of an a-amp configuration of the present invention.

Fig. 5 is a schematic perspective view of an anti-caking assembly according to the present invention.

Fig. 6 is a schematic perspective view of a sliding assembly according to the present invention.

Fig. 7 is a schematic perspective view of a reset assembly according to the present invention.

Fig. 8 is a schematic perspective view of the static eliminating assembly of the present invention.

Reference numerals illustrate: the device comprises a 1-base, a 2-first supporting frame, a 3-storage barrel, a 4-blanking component, a 41-second supporting frame, a 42-reducing motor, a 43-first rotating shaft, a 44-second supporting frame, a 45-third supporting frame, a 46-blanking plate, a 47-dust plate, a 5-quantitative component, a 51-first sliding block, a 52-first telescopic rod component, a 53-tray, a 54-collecting frame, a 55-second telescopic rod component, a 56-blanking plate, a 57-guiding rod, a 58-second sliding block, a 59-guiding rod, a 6-anti-caking component, a 61-internal gear, a 62-first straight gear, a 63-second straight gear, a 64-stirring rod, a 7-sliding component, a 71-sliding rail, a 72-third telescopic rod component, a 73-fourth telescopic rod component, a 74-first wedge block, a 75-handrail, a 76-fifth supporting frame, a 8-resetting component, a 81-third supporting frame, a 82-fifth telescopic rod component, a 83-guiding rod, a 84-pressing rod, a 85-second wedge block, a 86-third wedge block, a 9-shaped third wedge component, a 9-shaped static eliminating component, a 92-fourth supporting frame, a 92-fourth sliding rod, a 95-shaped spring and a sliding rod.

Detailed Description

The invention is further described below with reference to the drawings and the detailed description.

Example 1

The utility model provides a flour ration device of taking, as shown in fig. 1, including base 1, first support frame 2, storage vat 3, unloading subassembly 4 and ration take subassembly 5, be equipped with first support frame 2 on the base 1, first support frame 2 top is equipped with storage vat 3, is connected with unloading subassembly 4 between storage vat 3 upper portion and the base 1 top rear side, is equipped with ration on the base 1 and takes subassembly 5, and first support frame 2 is located ration and takes subassembly 5 left side, and unloading subassembly 4 and ration take subassembly 5 cooperation.

Firstly, a worker is required to put flour into the storage bucket 3, the worker starts the blanking component 4 to rotate, the blanking component 4 rotates to enable the flour to fall into the quantitative taking component 5 to be collected, and then the worker closes the blanking component 4.

Example 2

In a preferred embodiment of the present invention, as shown in fig. 1-8, the blanking assembly 4 includes a second support frame 41, a speed reducing motor 42, a first rotating shaft 43, a second rotating shaft 44, a transmission device 45, a blanking plate 46 and a dust plate 47, wherein the second support frame 41 is disposed on the upper rear side of the base 1, the top of the second support frame 41 is fixedly connected with the rear side of the storage vat 3, the speed reducing motor 42 is mounted on the rear side of the top of the storage vat 3, the output shaft of the speed reducing motor 42 is provided with the first rotating shaft 43, the second rotating shaft 44 is rotatably disposed on the inner wall of the storage vat 3, the dust plate 47 is slidably disposed on the second rotating shaft 44, the transmission device 45 is connected between the upper side of the second rotating shaft 44 and the upper side of the first rotating shaft 43, one belt pulley is connected to the upper side of the first rotating shaft 43, the other belt pulley is connected to the upper side of the second rotating shaft 44, the belt is wound between the two belt pulleys, and the blanking plate 46 is disposed on the lower side of the second rotating shaft 44.

When the workman is unloading flour, the workman starts gear motor 42 rotation, and gear motor 42 output shaft rotation drives first pivot 43 rotation to drive transmission 45 rotation, and then drive second pivot 44 rotation, then drive blanking plate 46 rotation, blanking plate 46 can be with flour fall to the ration take in subassembly 5 collect, when the workman does not need unloading flour, the workman close gear motor 42 can.

The quantitative taking assembly 5 comprises a first sliding block 51, a first telescopic rod assembly 52, a tray 53, a collecting frame 54, a second telescopic rod assembly 55, a blanking plate 56, a guide rod 57, a second sliding block 58 and a screw rod 59, wherein the first sliding block 51 is arranged on the base 1, the first telescopic rod assemblies 52 are symmetrically arranged on the upper part of the first sliding block 51, the number of the first telescopic rod assemblies 52 is four, the tray 53 is connected between the tops of the four first telescopic rod assemblies 52, the first telescopic rod assembly 52 consists of a fourth telescopic rod and a fourth spring, the fourth spring is sleeved on the fourth telescopic rod, two ends of the fourth spring are respectively connected on the first sliding block 51 and the tray 53, the collecting frame 54 is arranged on the tray 53, the collecting frame 54 is located the storage vat 3 below, the symmetry is equipped with second telescopic link subassembly 55 on first support frame 2 upper portion right side, be connected with disconnected flitch 56 between two second telescopic link subassemblies 55 right-hand member, second telescopic link subassembly 55 comprises a fifth telescopic link and fifth spring, the cover is equipped with the fifth spring on the fifth telescopic link, the both ends of fifth spring are connected respectively on first support frame 2 and disconnected flitch 56, the left side symmetry is equipped with guide arm 57 in disconnected flitch 56 bottom, be equipped with between two guide arms 57 and be connected with second slider 58, disconnected flitch 56 and second slider 58 all contact with collecting frame 54, threaded connection has screw 59 between disconnected flitch 56 lower part left side and the upper portion left side of second slider 58.

When the worker uses the quantitative taking component 5, the worker needs to place the collecting frame 54 on the tray 53, the collecting frame 54 can extrude the breaking plate 56 to move leftwards, the second telescopic rod component 55 is compressed, the breaking plate 56 moves leftwards to drive the guide rod 57 to move leftwards, the second sliding block 58 is driven to move leftwards, the screw rod 59 is driven to move leftwards, the breaking plate 56 temporarily cannot block flour in the storage bucket 3, at the moment, the flour falls into the collecting frame 54, if the worker needs less flour, the worker twists the screw rod 59, the screw rod 59 rotates to drive the second sliding block 58 to move upwards, the weight of the flour in the collecting frame 54 drives the tray 53 to move downwards, the first telescopic rod component 52 is compressed, if the worker takes more flour out, the worker reversely twists the screw rod 59 to drive the second sliding block 58 to move downwards to reset, the tray 53 to move downwards, the first telescopic rod component 52 is compressed, the height of the second sliding block 58 can be adjusted according to the amount of flour, the second sliding block 58 is enabled to be applicable, the collecting frame 54 is stably, and then the worker takes out the collecting frame 54 to enable the second sliding block 58 to move upwards, the second sliding block 58 moves downwards, the second telescopic rod 58 is reset to move the second sliding block 58 to move upwards, and the first telescopic rod component 52 is reset to move the second sliding block 52, and the collecting frame 52 is reset to move upwards, and the collecting frame 52 is reset to move the second sliding rod 52 is reset to move.

Still including anti-caking subassembly 6, anti-caking subassembly 6 is equipped with internal gear 61 including internal gear 61, first straight gear 62, second straight gear 63 and puddler 64 on the storage vat 3, and second pivot 44 is connected with internal gear 61 rotation, and second pivot 44 upper portion is equipped with first straight gear 62, and internal gear 61 inner wall symmetry rotation is equipped with puddler 64, and two puddlers 64 are connected with dust board 47 rotation, and two puddler 64 upper portions all are equipped with second straight gear 63, and two second straight gears 63 all mesh with first straight gear 62.

When the second rotating shaft 44 rotates, the second rotating shaft 44 rotates to drive the first straight gear 62 to rotate, and the first straight gear 62 is meshed with the two second straight gears 63 simultaneously, so that the stirring rod 64 is driven to rotate, the dust baffle 47 is driven to rotate, the stirring rod 64 rotates to drive flour to rotate, caking is avoided, the flour discharging efficiency is effectively improved, and when the second rotating shaft 44 stops rotating, the flour stops rotating.

The sliding assembly 7 comprises a sliding rail 71, a third telescopic rod assembly 72, a fourth telescopic rod assembly 73, a first wedge block 74, handrails 75 and a fifth supporting frame 76, wherein the sliding rail 71 is arranged on the base 1, the first sliding block 51 is connected with the sliding rail 71 in a sliding mode, the third telescopic rod assembly 72 is symmetrically arranged at the rear side of the first sliding block 51, the third telescopic rod assembly 72 is composed of a sixth telescopic rod and a sixth spring, the sixth telescopic rod is sleeved with the sixth spring, two ends of the sixth spring are respectively connected to the first sliding block 51 and the sliding rail 71, the fifth supporting frame 76 is symmetrically arranged at the top of the base 1, the fourth telescopic rod assembly 73 is arranged at the upper parts of the two fifth supporting frames 76, the first wedge blocks 74 are respectively arranged on the two fourth telescopic rod assemblies 73, the two first wedge blocks 74 are matched with the first sliding block 51, the fourth telescopic rod assembly 73 is composed of a seventh telescopic rod and a seventh spring, two ends of the seventh spring are respectively connected to the first wedge blocks 74 and the fifth supporting frame 76, and the handrails 75 are sleeved at the middle of the top of the fifth supporting frame 51.

When a worker needs to take out flour in the collection frame 54, the worker holds the handrail 75, pushes the handrail 75 to move backwards, thereby driving the first sliding block 51 to move backwards, and further driving the collection frame 54 to move backwards, the third telescopic rod assembly 72 is compressed, the first sliding block 51 is in contact with the first wedge block 74, thereby driving the first wedge block 74 to move outwards, the fourth telescopic rod assembly 73 is compressed, the first sliding block 51 is temporarily not in contact with the first wedge block 74, the fourth telescopic rod assembly 73 resets to drive the first wedge block 74 to reset, the first wedge block 74 resets to fix the first sliding block 51, the worker takes out flour in the collection frame 54, and replaces the collection frame 54 to be placed on the tray 53, then the worker pushes the handrail 75 to reset, thereby driving the first sliding block 51 to move forwards, the third telescopic rod assembly 72 is compressed, thereby driving the first wedge block 74 to move outwards, the first sliding block 51 is temporarily not in contact with the first wedge block 74, the fourth telescopic rod assembly 73 resets to drive the first wedge block 74 to reset, and the third telescopic rod assembly 72 resets to drive the collection frame 54 to reset.

The automatic reset device is characterized by further comprising a reset assembly 8, wherein the reset assembly 8 comprises a third supporting frame 81, a fifth telescopic rod assembly 82, connecting rods 83, pressure rods 84, second wedge blocks 85 and third wedge blocks 86, the third supporting frame 81 is arranged on the base 1, the upper parts of the third supporting frames 81 are all provided with the fifth telescopic rod assemblies 82, the connecting rods 83 are connected between the tops of the two fifth telescopic rod assemblies 82, the connecting rods 83 are slidably connected with the third supporting frame 81, the fifth telescopic rod assemblies 82 are composed of an eighth telescopic rod and eighth springs, the eighth springs are sleeved on the eighth telescopic rod, the two ends of the eighth springs are respectively connected with the third supporting frame 81 and the connecting rods 83, the pressure rods 84 are respectively arranged on the left side and the right side of the bottom of each connecting rod 83, the outer sides of the fourth telescopic rod assemblies 73 are respectively provided with the second wedge blocks 85, the second wedge blocks 85 on the same side are matched with the pressure rods 84 on the same side, the front sides of the upper parts of the tray 53 are provided with the third wedge blocks 86, and the third wedge blocks 86 are in contact with the second sliding blocks 58.

When the first wedge block 74 fixes the first slider 51, if the worker needs to restore the collecting frame 54 to the initial state, the worker pushes the pressing rod 84 to move downwards, so as to drive the connecting rod 83 to move downwards, the fifth telescopic rod assembly 82 is compressed, the pressing rod 84 contacts with the second wedge block 85, so that the second wedge block 85 moves outwards, the fourth telescopic rod assembly 73 is compressed, the first wedge block 74 is driven to move outwards, the third telescopic rod assembly 72 resets to drive the tray 53 to reset, the tray 53 resets to drive the third wedge block 86 to move forwards, the third wedge block 86 contacts with the second slider 58, so as to squeeze the second slider 58 to move leftwards, the collecting frame 54 resets, the worker releases the pressing rod 84 to reset the fifth telescopic rod assembly 82, so as to drive the connecting rod 83 to reset, and then drive the pressing rod 84 to reset.

Still including destaticizing subassembly 9, destaticizing subassembly 9 is including fourth support frame 91, third spring 92, slide bar 93, solid fixed ring 94 and iron chain 95, base 1 top rear side symmetry is equipped with fourth support frame 91, the fourth support frame 91 upper portion sliding type of front side is equipped with slide bar 93, the cover is equipped with third spring 92 on the slide bar 93, the both ends of third spring 92 are connected respectively on fourth support frame 91 and slide bar 93, the fourth support frame 91 upper portion rear side of rear side is equipped with solid fixed ring 94, gu be equipped with iron chain 95 on the fixed ring 94, iron chain 95 and ground contact cooperation.

When the tray 53 moves backward, the tray 53 moves backward to contact with the slide bar 93, thereby driving the slide bar 93 to move backward, the third spring 92 is compressed, so that the slide bar 93 contacts with the fixing ring 94, static electricity can be effectively prevented, when the tray 53 moves forward to reset, the tray 53 is not contacted with the slide bar 93 temporarily, and the third spring 92 resets to reset the slide bar 93 to move forward.

The foregoing description is only illustrative of the present invention and is not intended to limit the scope of the invention, and all equivalent structures or equivalent processes or direct or indirect application in other related arts are included in the scope of the present invention.

Claims (5)

1. A flour dosing device, comprising:

the device comprises a base (1) and a first support frame (2), wherein the first support frame (2) is arranged on the base (1);

the top of the first support frame (2) is provided with a storage barrel (3);

the blanking assembly (4) is connected between the upper part of the storage barrel (3) and the top of the base (1);

the quantitative taking assembly (5) is arranged on the base (1), the quantitative taking assembly (5) is arranged on the base, and the blanking assembly (4) is matched with the quantitative taking assembly (5);

the blanking component (4) comprises:

the second support frame (41) is arranged on the base (1), and the top of the second support frame (41) is fixedly connected with the storage vat (3);

a gear motor (42), and the top of the storage barrel (3) is provided with the gear motor (42);

a first rotating shaft (43), wherein the output shaft of the gear motor (42) is provided with the first rotating shaft (43);

the second rotating shaft (44) is rotatably arranged on the inner wall of the storage barrel (3);

a dust plate (47), the second rotating shaft (44) is provided with the dust plate (47) in a sliding manner;

the transmission device (45) is connected between the upper side of the second rotating shaft (44) and the upper side of the first rotating shaft (43), the transmission device (45) consists of two belt pulleys and a belt, one belt pulley is connected to the upper side of the first rotating shaft (43), the other belt pulley is connected to the upper side of the second rotating shaft (44), and the belt is wound between the two belt pulleys;

the blanking plate (46) is arranged at the lower side of the second rotating shaft (44);

the quantitative taking component (5) comprises:

the first sliding block (51) is arranged on the base (1);

the first telescopic rod assemblies (52) are symmetrically arranged on the upper parts of the first sliding blocks (51), and the number of the first telescopic rod assemblies (52) is four;

the tray (53) is connected between the tops of the four first telescopic rod assemblies (52), the first telescopic rod assemblies (52) are composed of a fourth telescopic rod and a fourth spring, the fourth spring is sleeved on the fourth telescopic rod, and two ends of the fourth spring are respectively connected to the first sliding block (51) and the tray (53);

the collecting frame (54) is arranged on the tray (53), and the collecting frame (54) is positioned below the storage vat (3);

the second telescopic rod assembly (55) is symmetrically arranged on the upper part of the first support frame (2);

the material breaking plate (56) is connected between the ends of the two second telescopic rod assemblies (55), the second telescopic rod assemblies (55) are composed of a fifth telescopic rod and a fifth spring, the fifth telescopic rod is sleeved with the fifth spring, and two ends of the fifth spring are respectively connected to the first supporting frame (2) and the material breaking plate (56);

the guide rod (57) is symmetrically arranged at the bottom of the material cutting plate (56);

the second sliding block (58), the second sliding block (58) is connected between the two guide rods (57) in a sliding manner, and the material breaking plate (56) and the second sliding block (58) are contacted with the collecting frame (54);

the screw (59) is connected with the screw (59) between the lower part of the material breaking plate (56) and the upper part of the second sliding block (58) in a threaded manner;

still including slip subassembly (7), slip subassembly (7) are including:

the base (1) is provided with a sliding rail (71), and the first sliding block (51) is connected with the sliding rail (71) in a sliding way;

the first sliding block (51) is symmetrically provided with a third telescopic rod assembly (72), the third telescopic rod assembly (72) consists of a sixth telescopic rod and a sixth spring, the sixth telescopic rod is sleeved with the sixth spring, and two ends of the sixth spring are respectively connected to the first sliding block (51) and the sliding rail (71);

the fifth supporting frame (76) is symmetrically arranged at the top of the base (1);

the upper parts of the two fifth supporting frames (76) are provided with the fourth telescopic rod assemblies (73);

the first wedge blocks (74) are arranged on the two fourth telescopic rod assemblies (73), the two first wedge blocks (74) are matched with the first sliding blocks (51), the fourth telescopic rod assemblies (73) are composed of a seventh telescopic rod and a seventh spring, the seventh telescopic rod is sleeved with the seventh spring, and two ends of the seventh spring are respectively connected to the first wedge blocks (74) and the fifth supporting frame (76);

and the handrail (75) is arranged in the middle of the top of the first sliding block (51).

2. A flour dosing device according to claim 1, further comprising an anti-caking assembly (6), the anti-caking assembly (6) comprising:

an internal gear (61), wherein the storage barrel (3) is provided with the internal gear (61), and the second rotating shaft (44) is rotationally connected with the internal gear (61);

a first straight gear (62), wherein the first straight gear (62) is arranged at the upper part of the second rotating shaft (44);

the stirring rods (64) are symmetrically and rotatably arranged on the inner wall of the inner gear (61), and the two stirring rods (64) are rotatably connected with the dust baffle (47);

and the upper parts of the two stirring rods (64) are respectively provided with a second spur gear (63), and the two second spur gears (63) are respectively meshed with the first spur gears (62).

3. A flour dosing device according to claim 2, further comprising a reset assembly (8), wherein the reset assembly (8) comprises:

the base (1) is provided with a third support frame (81);

the fifth telescopic rod assemblies (82) are arranged on the upper parts of the third supporting frames (81);

the connecting rods (83) are connected between the tops of the two fifth telescopic rod assemblies (82), the connecting rods (83) are connected with the third supporting frame (81) in a sliding mode, the fifth telescopic rod assemblies (82) are composed of an eighth telescopic rod and an eighth spring, the eighth spring is sleeved on the eighth telescopic rod, and two ends of the eighth spring are respectively connected with the third supporting frame (81) and the connecting rods (83);

the two sides of the bottom of the connecting rod (83) are provided with the pressing rods (84);

the outer sides of the second wedge-shaped blocks (85) and the fourth telescopic rod assemblies (73) are respectively provided with a second wedge-shaped block (85), and the second wedge-shaped blocks (85) on the same side are matched with the compression rods (84) on the same side;

and the upper part of the tray (53) is provided with a third wedge-shaped block (86), and the third wedge-shaped block (86) is in contact fit with the second sliding block (58).

4. A flour dosing device according to claim 3, further comprising a static-removing assembly (9), wherein the static-removing assembly (9) comprises:

the top of the base (1) is symmetrically provided with a fourth supporting frame (91);

the sliding rod (93) is arranged at the upper part of the fourth supporting frame (91) in a sliding way;

the third spring (92) is sleeved on the sliding rod (93), and two ends of the third spring (92) are respectively connected to the fourth supporting frame (91) and the sliding rod (93);

a fixed ring (94), wherein the fixed ring (94) is arranged at the upper part of the fourth supporting frame (91);

the iron chain (95) is arranged on the fixing ring (94), and the iron chain (95) is in contact fit with the ground.

5. A flour dosing device as claimed in claim 4, wherein the third spring (92) is made of steel alloy.