CN220998117U - Powder conveying device - Google Patents

Abstract

The utility model provides a powder conveying device, which comprises a shell, wherein baffle plates are arranged on two sides of the shell, driving rollers are symmetrically arranged on vertical surfaces of the baffle plates, a conveyor belt is arranged on the two driving rollers, a plurality of material guiding plates are arranged on the conveyor belt, scraping plates are arranged on two sides of the conveyor belt, a motor is arranged on the upper part of the shell, an output shaft of the motor is connected with one ends of the two driving rollers through a belt, two ends of the shell are both arc-shaped structures, a discharge hole is arranged on one side of the lower part of the shell, a feed inlet is arranged on one side of the upper part of the shell, a guide assembly is connected to the discharge hole, and an oscillating assembly is arranged on the lower part of the shell.

Description

Powder conveying device

Technical Field

The utility model relates to the technical field of powder conveying, in particular to a powder conveying device.

Background

The industrial plastic molding materials mainly comprise powder, granules, solution and dispersion, and the partial molding adopts monomers and prepolymer; the application is more widely used in powder and granular materials; the powder is prepared by uniformly mixing and dispersing powdery raw resin and various auxiliary agents.

In the prior art, the auger is generally adopted for transporting powder, so that the auger blade can be used for rotating, so that the powder can be continuously transported, however, most of powder can be stuck in the auger blade or the material conveying cylinder in the auger transportation process, so that waste is caused, and the powder conveying device provided by the utility model can be used for conveying the powder, and the waste can be avoided.

Disclosure of utility model

In view of the above, the utility model provides a powder conveying device, which can convey powder and avoid waste through a guide plate, a scraping plate and an oscillating assembly on a conveyor belt.

In order to solve the technical problems, the utility model provides a powder conveying device which comprises a shell, wherein baffle plates are welded on two sides of the shell, driving rollers are symmetrically arranged on vertical surfaces of the baffle plates, two driving rollers are arranged on the baffle plates on two sides through two end connection bearings, a conveying belt is arranged on the two driving rollers and is made of metal, a plurality of guide plates are welded on the conveying belt, scraping plates are arranged on two sides of the conveying belt in a sol connection mode, a motor is connected on the upper portion of the shell through bolts, an output shaft of the motor is connected with one ends of the two driving rollers through a belt, namely, belt pulleys are arranged on one ends of the output shaft of the motor and one ends of the two driving rollers, the belt is connected with the two driving rollers through the belt pulleys, two ends of the shell are in arc structures, a discharge hole is welded on one side of the lower portion of the shell, a feed inlet is welded on one side of the upper portion of the shell, which is far away from the discharge hole, a guide assembly is connected with the discharge hole, and an oscillating assembly is arranged on the lower portion of the shell.

The guide assembly comprises a guide hopper arranged on the outer side wall of the discharge hole, the guide hopper is connected to the discharge hole through a bolt, a connecting block is welded on one side of the guide hopper, the connecting block is of a hollow structure, the hollow structure is circular, a guide pipe is arranged on one side of the connecting block, the guide pipe is connected to one side of the connecting block through a bolt, the oscillating assembly comprises four supporting columns welded on the lower portion of a shell, the lower portions of the four supporting columns are welded on a supporting plate, a circular perforation is formed in the axis of the supporting plate through a perforating device, a connecting column is arranged in the circular perforation, the circular perforation only plays a role in guiding the connecting column and does not fix the connecting column, an oscillating block is welded on the upper portion of the connecting column, a rubber pad is sleeved on the upper portion of the oscillating block, springs are welded on four corners of the lower portion of the oscillating block, and the other ends of the springs are welded on the upper portion of the supporting plate.

The spliced pole lower part welding has the mounting panel, and the welding of mounting panel lower part has the handle, and the welding of the vertical face lower part in casing both sides has the supporting shoe, and equal symmetrical welding in two supporting shoe both ends lower part has the supporting leg, and the scraper blade sets up to the rubber material, and the stand pipe sets up to the PVC bellows material.

The technical scheme of the utility model has the following beneficial effects:

1. Through setting up conveyer belt cooperation stock guide and scraper blade of connecting on it to can transport the powder and can also strike off the powder that adheres to on the casing inside wall, and then can reach the extravagant effect of preventing the powder, and set up the both ends of casing to arc structure, thereby can prevent that the powder from piling up in both sides unable transportation.

2. The vibration assembly is arranged to vibrate the lower part of the shell when conveying is finished, so that the powder attached to the inside of the shell and the conveyor belt can be vibrated, the powder is separated from the vibration assembly by the vibration force generated by the vibration, and then the material under the vibration is conveyed to the discharge port for discharging, so that the aim of avoiding waste can be achieved.

3. The setting guide assembly can guide powder, the guide assembly is taken down when the powder needs to be rapidly discharged, the powder can be rapidly discharged through the discharge hole, and the guide assembly can be installed on the discharge hole when the powder needs to be guided, so that the powder can be guided.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic side sectional view of the present utility model;

FIG. 3 is a schematic side view of a removable baffle according to the present utility model;

Fig. 4 is a schematic diagram of an oscillating assembly according to the present utility model.

In the figure: 101. a housing; 102. a baffle; 103. a driving roller; 104. a conveyor belt; 105. a material guide plate; 106. a scraper; 107. a motor; 108. a belt; 109. a feed inlet;

201. A support column; 202. a support plate; 203. an oscillating block; 204. a spring; 205. a connecting column; 206. a mounting plate; 207. a handle;

301. a discharge port; 302. a guide hopper; 303. a connecting block; 304. a guide tube;

401. A support block; 402. and (5) supporting legs.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present utility model more clear, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to fig. 1 to 4 of the embodiments of the present utility model. It will be apparent that the described embodiments are some, but not all, embodiments of the utility model. All other embodiments, which are obtained by a person skilled in the art based on the described embodiments of the utility model, fall within the scope of protection of the utility model.

As shown in fig. 1 and 2: the utility model provides a powder conveyor, including casing 101, thereby casing 101 both sides all weld has baffle 102, thereby set up baffle 102 and can make driving roller 103 fixed, thereby the symmetry is provided with driving roller 103 on the baffle 102 vertical surface, two driving rollers 103 set up on both sides baffle 102 through both ends connecting bearing, thereby can make driving roller 103 reduce its influence that receives frictional force when rotating on baffle 102, be provided with conveyer belt 104 on two driving rollers 103, thereby can convey the material, conveyer belt 104 sets up to the metal material, thereby can effectively avoid the powder to adhere to it, and can prevent to produce static because of rotating and producing, the welding has a plurality of stock guide 105 on the conveyer belt, a plurality of stock guide 105 set up to arc structure, thereby can make the material can follow the forward movement when the stock guide, be difficult for putty when the stock guide, the conveyer belt both sides are provided with scraper blade 106 through the mode of sol connection, thereby set up scraper blade 106 and can scrape the sticky on the casing 101 inside wall, thereby can effectively prevent the waste of powder in the transportation.

As shown in fig. 1, 2 and 4: casing 101 upper portion is through bolted connection there being motor 107, thereby be convenient for carry out the dismouting when motor 107 needs to maintain or change through bolted connection, thereby the output shaft of motor 107 is connected with the one end of two driving rolls 103 through belt 108, namely the belt 108 round is all installed to the output shaft of motor 107 and two driving rolls 103 one end, belt 108 is through setting up and taking turns to it to be connected at three belt 108, thereby can make the output shaft of motor 107 rotate and thereby drive two driving rolls 103 and rotate, and then make two driving rolls 103 drive conveyer belt 104 and remove, thereby realize carrying the powder, casing 101 both ends all set up to arc structure, thereby set up to arc structure and prevent that the powder from falling in both sides can't be carried, and then avoided causing the waste of powder, casing 101 lower part one side welding has discharge gate 301, thereby the powder can carry out the unloading through discharge gate 301, one side welding that discharge gate 301 was kept away from on casing 101 upper portion has feed inlet 109, thereby can add the powder in feed inlet 109 department, discharge gate 301 department is connected with guide assembly, thereby set up guide assembly can make it carry out the guide assembly to rotate to drive two driving rolls 103, and then make two driving rolls 103 drive conveyer belt 104 and remove, thereby realize carrying the powder, casing 101 both ends all set up to arc structure, thereby can cause the vibration of carrying on the casing 101 and can be sticky to carry on the vibration and carry the casing 104 when carrying it is sticky to the powder and then can be had a small number of vibration to carry on the casing 101.

As shown in fig. 1 and 2: the guiding component comprises a guiding hopper 302 arranged on the outer side wall of the discharge hole 301, the guiding hopper 302 is arranged to guide powder guided out of the discharge hole 301, the guiding hopper 302 enters a guiding pipe 304, the guiding hopper 302 is connected to the discharge hole 301 through a bolt, so that the guiding component can be conveniently disassembled and assembled, a connecting block 303 is welded on one side of the guiding hopper 302, the connecting block 303 is arranged to be hollow and is circular in shape, the guiding pipe 304 can be connected, the guiding pipe 304 is arranged on one side of the connecting block 303, the guiding pipe 304 is connected to one side of the connecting block 303 through a bolt, so that the powder can be guided through the guiding pipe 304 when the powder is required to be guided, and the guiding component can be disassembled when the powder is required to be rapidly transported, so that the powder is rapidly discharged through the discharge hole 301.

As shown in fig. 4: the oscillating assembly comprises four supporting columns 201 welded at the lower part of the shell 101, the lower parts of the four supporting columns 201 are welded on one supporting plate 202, the supporting plate 202 is arranged to support all parts on the shell, round through holes are formed in the positions of the axes of the supporting plate 202 through hole openers, connecting columns 205 are arranged in the round through holes, the round through holes only play a role of guiding the connecting columns 205 and do not fix the connecting columns 205, so that the connecting columns 205 can move up and down in the round through holes, the positions of the connecting columns are not offset, an oscillating block 203 is welded at the upper part of the connecting columns 205, the oscillating block 203 is arranged to oscillate the lower part of the shell 101 according to the reaction force of a spring 204 after the connecting columns 205 are pulled, so that oscillation can be generated on the inner side walls of the shell 101 and all parts on the upper parts of the shell, then the powder adhered on all parts on the conveying belt 104 can oscillate down, the connecting columns 205 are conveyed to the positions of a discharge hole 301 through a guide plate 105, the waste of the powder is avoided, a rubber pad is sleeved at the upper part of the oscillating block 203, the other end of the oscillating block 203 is provided, the rubber pad can be prevented from being damaged due to the fact that the oscillating block 203 is too much, the oscillating block 203 is welded at the lower parts of the spring 204 are welded at the lower parts of the four corners, and the lower parts of the shell 204 can be welded by the spring 204, and the reaction force of the spring 204 can be arranged at the lower parts of the supporting plate 204.

As shown in fig. 1, 2 and 3: the mounting plate 206 is welded to the lower portion of the connecting column 205, the handle 207 is welded to the lower portion of the mounting plate 206, therefore, workers can pull the handle 207 to pull the connecting column 205 downwards, the reaction force of the springs 204 is utilized to oscillate the lower portion of the shell 101, the supporting blocks 401 are welded to the lower portions of the vertical surfaces of the two sides of the shell 101, the supporting legs 402 are symmetrically welded to the lower portions of the two ends of the two supporting blocks 401, the shell 101 and parts on the two supporting blocks are supported, the scraping plates 106 are made of rubber materials, the length of arc surfaces on the two sides of the shell 101 is greater than that of the inner wall parallel to the ground, the length of the scraping plates 106 is greater than that of the guide plates 105, the scraping plates 106 are made of the deformable materials such as rubber materials, the guiding plates can guide the powder attached to the inner side walls of the shell 101, the guiding pipes 304 are made of PVC corrugated pipes, and the guiding pipes 304 can move in various angles.

The application method of the utility model comprises the following steps:

When the equipment is used, firstly, the motor is started, then the conveyor belt starts to work, powder can be poured from the feed inlet, then the conveyor belt and the guide plate continuously convey the powder forwards under the action of the conveyor belt, the powder attached to the inner side wall is continuously scraped through the two scrapers, then the powder is conveyed to the discharge outlet to be discharged, if the powder is required to be discharged quickly, the guide assembly is not required to be installed, if the powder is required to be guided, the guide assembly can be installed, so that the position of the powder is guided, after the equipment is used, workers are required to pull the handle to oscillate the lower part of the shell through the oscillation assembly, and the conveyor belt still continuously moves in the oscillation process, so that the powder is prevented from being attached to the inner side wall of the shell or the conveyor belt to cause waste.

Furthermore, it should be noted that, in the description of the present utility model, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model can be understood by those skilled in the art according to the specific circumstances.

While the foregoing is directed to the preferred embodiments of the present utility model, it will be appreciated by those skilled in the art that various modifications and adaptations can be made without departing from the principles of the present utility model, and such modifications and adaptations are intended to be comprehended within the scope of the present utility model.

Claims (7)

1. A powder conveyor, characterized in that: including casing (101), casing (101) both sides all are provided with baffle (102), the symmetry is provided with driving roller (103) on baffle (102) vertical plane, two be provided with conveyer belt (104) on driving roller (103), be provided with a plurality of stock guide (105) on the conveyer belt, conveyer belt (104) both sides are provided with scraper blade (106), casing (101) upper portion is provided with motor (107), the output shaft of motor (107) is connected with the one end of two driving roller (103) through belt (108), casing (101) both ends all are set up to arc structure, casing (101) lower part one side is provided with discharge gate (301), casing (101) upper portion one side is provided with feed inlet (109), discharge gate (301) department is connected with guide assembly, casing (101) lower part is provided with oscillating assembly.

2. The powder delivery device of claim 1, wherein: the guide assembly comprises a guide hopper (302) arranged on the outer side wall of the discharge hole (301), a connecting block (303) is arranged on one side of the guide hopper (302), and a guide pipe (304) is arranged on one side of the connecting block (303).

3. The powder delivery device of claim 1, wherein: the vibration assembly comprises four support columns (201) arranged at the lower portion of a shell (101), the lower portions of the four support columns (201) are connected to a support plate (202), round through holes are formed in the axle center of the support plate (202), connecting columns (205) are arranged in the round through holes, vibration blocks (203) are arranged on the upper portions of the connecting columns (205), springs (204) are arranged at four corners of the lower portions of the vibration blocks (203), and the other ends of the springs (204) are connected to the upper portions of the support plate (202).

4. A powder delivery device as set forth in claim 3, wherein: the lower part of the connecting column (205) is provided with a mounting plate (206), and the lower part of the mounting plate (206) is provided with a handle (207).

5. The powder delivery device of claim 1, wherein: the lower parts of vertical surfaces at two sides of the shell (101) are connected with supporting blocks (401), and supporting legs (402) are symmetrically arranged at the lower parts of two ends of each supporting block (401).

6. The powder delivery device of claim 1, wherein: the scraping plate (106) is made of rubber.

7. The powder delivery device of claim 2, wherein: the guide pipe (304) is made of PVC corrugated pipe materials.