CN210943987U - Can turn to powder of varactor and receive and tell device - Google Patents

Abstract

The utility model provides a can turn to powder of varactor and receive and tell device, it is big to solve the occupation space that current storage feed mode exists, and the material pollution risk is high, and the operation degree of difficulty and feed error are big, and intensity of labour is high, problem that production efficiency is low. Including a plurality of sections flexible telescopic cylinder body that link to each other through supporting solid fixed ring respectively, its characterized in that: the middle part of the fixing ring main body of the supporting fixing ring is provided with a connecting through cavity, and the interior of each section of continuously arranged flexible telescopic cylinder forms a variable-volume storage cavity; the upper end of the upper section flexible telescopic cylinder body is provided with a top sealing cover, the middle part of the top sealing cover is provided with a feed inlet, and the lower end of the lower section flexible telescopic cylinder body is provided with a bottom discharge box; the downside of bottom ejection of compact case is provided with the discharge gate, and the inside of bottom ejection of compact case is provided with discharge mechanism. The powder particle storage and feeding device has the advantages of reasonable design, compact structure, variable appearance and capacity, strong space adaptability, simple and convenient operation, high automation degree and low labor intensity, and can realize flexible storage and feeding of powder particle materials.

Description

Can turn to powder of varactor and receive and tell device

Technical Field

The utility model belongs to the technical field of mechanical equipment, concretely relates to appearance and capacity are variable, and space self adaptability is strong, and is easy and simple to handle, and degree of automation is high, and low in labor strength can realize that the powder material is nimble to be stored and the feed can turn to the powder of variable volume and receive and tell the device.

Background

The powder materials are the most common material forms in the industries of building materials, chemical industry, grain, medicines and the like. The storage and feeding management of powder materials are key links of the whole production chain and are of great importance to cost control, production efficiency and overall benefit, and even product quality and production safety. However, as a key process of the whole production line, the storage and feeding technology of the powder materials is physically limited by the materials, and the requirements on the container space, the environment and the feeding mode are relatively complex; moreover, based on the traditional thinking of separate storage and supply, the storage mode of closed storage or split charging and packaging of rigid containers is mostly adopted, and then auxiliary tools are used for discharging. The traditional storage feeding mode has the advantages of large occupied space, high risk of material pollution, high operation difficulty and feeding error, high labor intensity of workers, poor working environment, difficulty in realizing continuous operation, low production efficiency and influence on product quality. There is a need for improvements in the prior art methods and apparatus for storing and feeding particulate materials.

SUMMERY OF THE UTILITY MODEL

The utility model discloses just to above-mentioned problem, provide an appearance and capacity are variable, space self adaptability is strong, and is easy and simple to handle, and degree of automation is high, and low in labor strength can realize that the powder material is nimble to be stored and the powder that can turn to the varactor of feed and receive and tell the device.

The utility model adopts the technical proposal that: this powder of turning to varactor is received and is told device includes a plurality of sections flexible telescopic cylinder, its characterized in that: the flexible telescopic cylinders are connected through the support fixing rings respectively, each support fixing ring is composed of a fixing ring main body, the middle part of each fixing ring main body is provided with a connecting through cavity for communicating two adjacent sections of flexible telescopic cylinders, and the interior of each section of continuously arranged flexible telescopic cylinders forms a variable-volume storage cavity for storing materials; the upper end of the upper section flexible telescopic cylinder body is provided with a top sealing cover, the top sealing cover consists of a sealing cover main body, the middle part of the sealing cover main body is provided with a feeding hole, and the lower end of the lower section flexible telescopic cylinder body is provided with a bottom discharging box; the downside of bottom ejection of compact case is provided with the discharge gate, and the inside of bottom ejection of compact case is provided with discharge mechanism, and the one end that discharge mechanism is located the bottom ejection of compact case outside is provided with ejection of compact drive division.

The bottom discharge box is composed of a discharge box main body, and a cylinder connecting ring used for being connected with the lower end of the lower section flexible telescopic cylinder is arranged at the upper part of the discharge box main body; the upper end of the cylinder connecting ring is provided with a discharging slope, the bottom of the discharging slope is provided with a discharging inlet, the discharging inlet is connected with the inner cavity of the discharging box main body, and the discharging port is arranged at the lower part of the discharging box main body. The material at the lower end of the lower flexible telescopic cylinder is discharged into the inner cavity of the discharge box main body through the discharge inlet by utilizing the discharge slope at the upper part of the discharge box main body, and then is discharged from the discharge outlet through the discharge mechanism.

The discharging mechanism in the bottom discharging box comprises a conveying cylinder which is transversely arranged, a conveying auger is arranged in the conveying cylinder and consists of an auger rotating shaft, the auger rotating shaft is arranged along the direction parallel to the axis of the conveying cylinder, and spiral blades which are continuously arranged are arranged on the auger rotating shaft; the auger rotating shaft of the material conveying auger extends out of the auger driving end at the outer side of the side end part of the bottom discharging box and is provided with a driving handle; an inlet on the upper side wall of one end of the material conveying cylinder is connected with a material discharging inlet on the cylinder connecting ring, and an outlet on the lower side wall of the other end of the material conveying cylinder is connected with the material discharging port. The screw blade on the screw shaft is driven to rotate together through the driving handle, so that materials entering the conveying cylinder through the material discharging inlet at one end are continuously conveyed to the material discharging outlet at the lower side of the other end of the conveying cylinder, and controllable material discharging and effective sealing of the materials in the flexible telescopic cylinder are realized.

And a flange baffle is detachably arranged at the position on the side wall of the discharge box main body of the bottom discharge box, which is connected with the end part of the feed delivery cylinder inside the discharge box main body. So as to achieve the purpose of effectively sealing the material conveying cylinder while being convenient for the maintenance of the discharging mechanism in the bottom discharging box.

The utility model has the advantages that: because the utility model adopts a plurality of sections of flexible telescopic cylinders which are respectively connected through the supporting and fixing ring, the supporting and fixing ring is composed of the fixing ring main body, the middle part of the fixing ring main body is provided with a communicating cavity for communicating two adjacent sections of flexible telescopic cylinders, and the interior of each section of flexible telescopic cylinder which is continuously arranged forms a variable-capacity storage cavity for storing materials; the upper end of the upper section flexible telescopic cylinder body is provided with a top sealing cover, the top sealing cover consists of a sealing cover main body, the middle part of the sealing cover main body is provided with a feeding hole, and the lower end of the lower section flexible telescopic cylinder body is provided with a bottom discharging box; the downside of bottom ejection of compact case is provided with the discharge gate, and the inside of bottom ejection of compact case is provided with discharge mechanism, and the one end that discharge mechanism is located the bottom ejection of compact case outside sets up the structural style of ejection of compact drive division, so its reasonable in design, compact structure, the flexible barrel design of scalable varactor, can furthest adapt to various installation space needs, avoid the barrier to can freely set for the capacity of device. Meanwhile, the flexible material selection can not only adapt to the environmental requirements of various temperatures and humidity, but also reasonably regulate and control the cost according to the use requirement. The design of various bearing fixing parts such as a top closing cover, a supporting fixing ring, a bottom discharging box and the like effectively supports the powder material collecting and discharging device while meeting the requirement of physical strength; moreover, the top closing cover and the bottom discharging box can prevent the overflow of powder materials and avoid pollution.

This changeable semi-automatization of appearance and capacity or automatic powder material storage and powder of feed receive and tell device, space strong adaptability, easy operation, low in labor strength, but the full satisfaction all kinds of user's needs, can be applicable to likepowder and tiny granular material and store and call, multiple type allotment management of prepareeing material, can realize that powder class material is nimble to be stored, feed and seal up for deposit, the material stores up and supplies the management integration operation, use manpower sparingly, improve work efficiency, reduce intensity of labour, standardize the operation management, reduce the loss, practice thrift the cost, can be the powder class material management of building materials, chemical industry, medicine, storage, market etc., provide advanced technical device.

Drawings

Fig. 1 is a schematic structural view (stretched state) of the present invention.

FIG. 2 is a schematic view of one configuration of the bottom discharge bin of FIG. 1.

Fig. 3 is a sectional view of the internal structure of fig. 1.

Fig. 4 is a schematic view of a top closure of fig. 1.

Fig. 5 is a schematic view of a structure of the support ring of fig. 1.

Fig. 6 is a schematic diagram of a structure of the feeding auger in fig. 3.

Fig. 7 is a schematic view of the present invention in a use state during compression.

Fig. 8 is a schematic view of a state of the utility model when bending in case of an obstacle.

The sequence numbers in the figures illustrate: the device comprises a top sealing cover 1, a feed inlet 2, an upper flexible telescopic cylinder 3, a supporting and fixing ring 4, a lower flexible telescopic cylinder 5, a bottom discharge box 6, a flange baffle 7, a discharge mechanism 8, a discharge outlet 9, a discharge box main body 10, a cylinder connecting ring 11, a discharge slope 12, a discharge inlet 13, a discharge cylinder 14, a discharge auger 15, a driving handle 16, a variable-volume storage cavity 17, a sealing cover main body 18, a fixing ring main body 19, a connecting and through cavity 20, a auger rotating shaft 21, a helical blade 22 and a auger driving end 23.

Detailed Description

The specific structure of the present invention is described in detail with reference to fig. 1 to 8. This powder of turning to varactor is received and is told device includes the flexible barrel of a plurality of sections, and flexible barrel can adopt the flexible bellows structure that materials such as pvc, plastic or steel aluminium sheet were made according to service strength and environment needs. The flexible telescopic cylinder bodies are connected through a support fixing ring 4, the support fixing ring 4 is composed of a fixing ring main body 19, and a connecting through cavity 20 for communicating the two adjacent flexible telescopic cylinder bodies is arranged in the middle of the fixing ring main body 19; meanwhile, the inside of each section of the flexible telescopic cylinder body which is continuously arranged forms a variable-volume material storage cavity 17 for storing materials, and the cross section of the variable-volume material storage cavity 17 can be square, rectangular or circular. The upper end of the upper section flexible telescopic cylinder 3 which is positioned at the uppermost end of the plurality of sections of flexible telescopic cylinders is provided with a top closing cover 1; the top closing cover 1 is composed of a closing cover main body 18, a feeding hole 2 is arranged in the middle of the closing cover main body 18, and a movable closing cover is further arranged on the feeding hole 2.

The lower end of the lower section flexible telescopic cylinder 5 positioned at the lowest end of the plurality of sections of flexible telescopic cylinders is provided with a bottom discharging box 6. The bottom discharge box 6 is composed of a discharge box main body 10, the bottom of the discharge box main body 10 is arc-shaped, and a cylinder connecting ring 11 used for being connected with the lower end of the lower section flexible telescopic cylinder 5 is arranged on the upper part of the discharge box main body 10. A plurality of groups of discharging slopes 12 which are beneficial to the downward sliding of materials are arranged on the upper end of the cylinder connecting ring 11, which is connected with the lower flexible telescopic cylinder 5; the bottom of the plurality of groups of discharging slopes 12 is provided with a discharging inlet 13, the discharging inlet 13 is communicated with the inner cavity of the discharging box main body 10, and the lower part of the discharging box main body 10 is provided with a discharging outlet 9. And then, the material at the lower end of the lower flexible telescopic cylinder 5 is discharged into a material conveying cylinder 14 in the inner cavity of the discharge box main body 10 through a material discharging inlet 13 by using a material discharging slope 12 at the upper part of the discharge box main body 10, and then the material is discharged from a material outlet 9 through a material discharging mechanism 8.

The discharging box body 10 of the bottom discharging box 6 is internally provided with a discharging mechanism 8, the discharging mechanism 8 comprises a material conveying cylinder 14 which is transversely arranged, and a material conveying auger 15 is arranged inside the material conveying cylinder 14. The material conveying auger 15 is composed of an auger rotating shaft 21, and the auger rotating shaft 21 is arranged along the direction parallel to the axis of the material conveying cylinder 14; the auger rotating shaft 21 is also provided with continuously arranged helical blades 22. The auger rotating shaft 21 of the material conveying auger 15 extends out of the auger driving end 23 at the outer side of the end part of the bottom discharge box 6 side and is provided with a foldable driving handle 16; it can be understood that the auger drive end 23 of the auger shaft 21 can also be connected to the output end of the motor to facilitate automatic control of discharge, depending on the particular application. Meanwhile, an inlet on the upper side wall of one end of the material conveying cylinder 14 is communicated with a material discharging inlet 13 arranged on the cylinder connecting ring 11; the outlet on the lower side wall of the other end of the delivery cylinder 14 is communicated with the discharge hole 9 at the lower part of the bottom discharge box 6. In order to achieve the purpose of effectively sealing the material conveying cylinder 14 while facilitating the maintenance of the discharging mechanism 8 inside the bottom discharging box 6, a flange baffle 7 is detachably arranged at a position on the side wall of the discharging box main body 10 of the bottom discharging box 6, which is connected with the end part of the material conveying cylinder 14 inside the discharging box main body. Therefore, the driving handle 16 drives the auger rotating shaft 21 and the helical blade 22 thereon to rotate together, and materials entering the conveying cylinder 14 through the material discharging inlet 13 at one end are continuously conveyed to the material discharging outlet 9 at the lower side of the other end of the conveying cylinder 14, so that the controllable material discharging and the effective sealing of the materials in the flexible telescopic cylinder are realized.

This powder of turning to varactor is received and is told device when using, at first, according to concrete volume needs and service environment condition, carries out corresponding flexible and the adjustment of flexible buckling to the length and the angle of each section flexible telescopic cylinder body, and then realizes that whole powder is received and is told stretching, compression or meeting the barrier of device and bend, and hoisting device is to the self-adaptation ability in space, facilitates the use. Then, the powder materials are loaded into the variable-volume material storage cavity 17 inside each section of flexible telescopic cylinder body which is continuously arranged through the feed port 2, and the feed port 2 is sealed by a movable sealing cover. The material at the lower end of the lower flexible telescopic cylinder 5 is discharged into the material conveying cylinder 14 in the inner cavity of the discharge box main body 10 of the bottom discharge box 6 through the material discharge inlet 13, then the auger rotating shaft 21 and the helical blade 22 thereon are driven to rotate together through the driving handle 16, and the material entering the material conveying cylinder 14 through the material discharge inlet 13 at one end is continuously conveyed to the material discharge port 9 at the lower side of the other end of the material conveying cylinder 14, so that the controllable material discharge and the effective sealing of the material in the flexible telescopic cylinder are realized. The device has the advantages of variable appearance and capacity, strong space adaptability, simple and convenient operation, high automation degree and low labor intensity.

Claims (4)

1. The utility model provides a powder that can turn to varactor is received and is told device, includes the flexible barrel of a plurality of sections, its characterized in that: the flexible telescopic cylinder bodies are connected through a support fixing ring (4), the support fixing ring (4) is composed of a fixing ring main body (19), a connecting cavity (20) for communicating two adjacent sections of flexible telescopic cylinder bodies is arranged in the middle of the fixing ring main body (19), and a variable-volume material storage cavity (17) for storing materials is formed inside the flexible telescopic cylinder bodies which are continuously arranged in each section; the upper end of the upper section flexible telescopic cylinder (3) is provided with a top closing cover (1), the top closing cover (1) is composed of a closing cover main body (18), the middle part of the closing cover main body (18) is provided with a feeding hole (2), and the lower end of the lower section flexible telescopic cylinder (5) is provided with a bottom discharging box (6); the lower side of the bottom discharging box (6) is provided with a discharging hole (9), the inside of the bottom discharging box (6) is provided with a discharging mechanism (8), and one end of the discharging mechanism (8) located on the outer side of the bottom discharging box (6) is provided with a discharging driving portion.

2. The powder containing and spitting device with the steerable variable capacity of claim 1, wherein: the bottom discharging box (6) is composed of a discharging box main body (10), and a barrel connecting ring (11) used for being connected with the lower end of the lower flexible telescopic barrel (5) is arranged at the upper part of the discharging box main body (10); the upper end of the cylinder connecting ring (11) is provided with a discharging slope (12), the bottom of the discharging slope (12) is provided with a discharging inlet (13), the discharging inlet (13) is connected with the inner cavity of the discharging box main body (10), and the discharging port (9) is arranged at the lower part of the discharging box main body (10).

3. The powder containing and spitting device with the steerable variable capacity of claim 2, wherein: the discharging mechanism (8) in the bottom discharging box (6) comprises a conveying cylinder (14) which is transversely arranged, a conveying auger (15) is arranged in the conveying cylinder (14), the conveying auger (15) is composed of an auger rotating shaft (21), the auger rotating shaft (21) is arranged along the direction parallel to the axis of the conveying cylinder (14), and spiral blades (22) which are continuously arranged are arranged on the auger rotating shaft (21); the auger rotating shaft (21) of the material conveying auger (15) extends out of the auger driving end (23) at the outer side of the side end part of the bottom discharging box (6) and is provided with a driving handle (16); an inlet on the upper side wall of one end of the material conveying cylinder (14) is connected with a material discharging inlet (13) on the cylinder connecting ring (11), and an outlet on the lower side wall of the other end of the material conveying cylinder (14) is connected with the material discharging hole (9).

4. The powder containing and spitting device with steerable variable volume according to claim 3, wherein: the flange baffle (7) is detachably arranged at the position, connected with the end part of the material conveying cylinder (14) inside the material conveying box main body (10), on the side wall of the material discharging box main body (10) of the bottom material discharging box (6).

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