CN210901349U - Jolter - Google Patents

Abstract

The utility model provides a plain bumper, including the casing with locate the vibrating motor of casing bottom, its characterized in that: the improved shell is characterized in that a feed inlet is formed in the top of the shell, a placing plate is arranged in the shell, the feed inlet is located right above the central position of the placing plate, a guide plate which extends outwards from the central position of the placing plate to the edge of the placing plate in a spiral mode is arranged on the placing plate, and an outlet is formed in the tail end, located on the edge side of the placing plate, of the guide plate. When the material guide plate runs, the material moves outwards along the guide plate in a spiral mode under the action of the rotary vibration force of the vibration motor and is discharged from the outlet. During the movement, the materials are continuously collided and extruded with the side wall of the material guide plate, and the effect of compacting and agglomerating is achieved. Therefore, the utility model discloses can play the effect of automatic discharging under the prerequisite of guarantee plain effect.

Description

Jolter

Technical Field

The utility model belongs to food medicine and lithium cell trade especially relate to a plain bumper.

Background

The principle of the vibrator is that the rotary vibration force of the motor drives the material to do outward-expanding gradually-opening linear motion in the container, so that the material and the container wall are collided and extruded, gaps among the materials are reduced, and the effect of agglomeration is achieved. The existing rotary vibration motor has the following defects: the container for storing the materials is mostly of a closed or semi-closed structure, which results in that the materials need to be taken out of the container by means of external force after the materials are compacted, thereby causing two problems: firstly, the material is taken out, time and labor are consumed, the efficiency is influenced, secondly, the material is scattered again in the material taking process, and the final compaction effect is influenced.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a plain bumper of the effectual and ejection of compact by oneself of plain bumper is provided to solve the not enough that prior art exists.

The utility model discloses a this technical problem is solved to following mode: the utility model provides a plain bumper, includes the casing and locates the vibrating motor of casing bottom, its characterized in that: the improved shell is characterized in that a feed inlet is formed in the top of the shell, a placing plate is arranged in the shell, the feed inlet is located right above the central position of the placing plate, a guide plate which extends outwards from the central position of the placing plate to the edge of the placing plate in a spiral mode is arranged on the placing plate, and an outlet is formed in the tail end, located on the edge side of the placing plate, of the guide plate.

When the material guide plate runs, the material moves outwards along the guide plate in a spiral mode under the action of the rotary vibration force of the vibration motor and is discharged from the outlet. During the movement, the materials are continuously collided and extruded with the side wall of the material guide plate, and the effect of compacting and agglomerating is achieved. Therefore, the utility model discloses can play the effect of automatic discharging under the prerequisite of guarantee plain effect.

The utility model discloses an in the preferred embodiment, place the circular cone of board for the epirelief, its conical top portion is located under the feed inlet, the stock guide is total four circles and follows the conical top portion spiral extends outwards place the edge of board. By adopting the structure, the materials can move to the edge of the placing plate more easily, and the blockage is avoided; and the material and the guide plate have sufficient contact time and contact area, and good compaction effect is ensured.

The utility model discloses an in the preferred embodiment, the casing comprises from last upper cover, center and the bottom plate together fixed in proper order down, the feed inlet is located the upper cover top, place the board and locate in the center. By adopting the structure, the cleaning can be convenient to disassemble.

The utility model discloses an in the preferred embodiment, the bottom plate is the circular cone shape of convexity down, thereby bottom plate upper surface department has constituted a toper cavity, be equipped with the support plate in the toper cavity, the bottom plate is in support plate top department is equipped with the discharge gate, the entrance point of discharge gate is located below one side of export. By adopting the structure, the material on the carrier plate can move around the carrier plate for a circle under the action of the rotary vibration force, so that the tap time is further improved, and the tap effect is enhanced.

In the preferred embodiment of the present invention, the support plate is in the shape of a cone protruding upwards, so that the material can be concentrated at the edge of the support plate, thereby improving the jolt effect.

In the preferred embodiment of the present invention, the bottom of the cone of the bottom plate is provided with an opening, so that a placing cavity is formed between the bottom of the support plate and the bottom plate, and the vibration motor is disposed in the placing cavity.

The utility model discloses an in the preferred embodiment, still including locating the end section of thick bamboo of vibrating motor below, damping spring has been arranged along circumference on the up end of end section of thick bamboo, damping spring with the bottom plate is connected to play the effect that bears and the absorbing to the casing.

To sum up, the utility model discloses can realize the ejection of compact by oneself under the prerequisite of guaranteeing the jolt ramming effect, solve the not enough that prior art exists.

Drawings

The present invention will be further explained with reference to the following drawings:

fig. 1 is a front cross-sectional view of the present invention;

FIG. 2 is a top view of the placement plate of the present invention;

wherein: 100-shell, 101-upper cover, 102-middle frame, 103-bottom plate, 104-feeding hole, 105-placing plate, 106-material guide plate, 107-outlet, 108-carrier plate, 109-discharging hole, 110-inlet end, 200-vibrating motor, 300-base, 301-bottom cylinder, 302-damping spring.

Detailed Description

The invention is further illustrated below by means of specific examples:

as shown in fig. 1 and 2, a compactor includes a housing 100, a vibration motor 200, and a base 300.

Wherein, the vibration motor 200 is installed at the bottom of the housing 100 to drive the housing 100 to vibrate. The housing 100 is mounted on the base 300 to perform a bearing and shock-absorbing function.

The housing 100 is composed of an upper cover 101, a middle frame 102, and a bottom plate 103, which are fixed together in this order from top to bottom. The top of the upper cover 101 is provided with a feed inlet 104, and the middle frame 102 is provided with a placing plate 105. The placing plate 105 is in a convex conical shape, the conical top of the placing plate is positioned right below the feed inlet 104, the placing plate 105 is provided with a guide plate 106 which extends from the conical top to the edge of the placing plate 105 in a spiral outward direction, and the placing plate 105 is provided with an outlet 107 at the tail end of the guide plate 106 positioned at the edge side of the placing plate 105. Thus, the material fed from the feeding hole 104 can be caught in the guide plate 106 at the top of the cone, and under the rotating and vibrating force of the vibrating motor 200, the material is spirally moved outward along the guide plate 106 until being discharged from the outlet 107. During the movement, the material is continuously collided and extruded with the side wall of the material guide plate 106, so that the effect of compacting and agglomerating is achieved. The guide plate 106 has four turns, so that the material and the guide plate 106 have sufficient contact time and contact area to obtain good tap effect.

The base plate 103 is concavely conical so that a conical cavity is formed at the upper surface of the base plate 103, in which a carrier plate 108 is arranged for receiving material falling out of the outlet. The side wall of the bottom plate 103 is further provided with a discharge hole 109 located above the carrier plate 108 for discharging the material on the carrier plate 108. The discharge port 109 includes an inlet end 110 disposed on the bottom plate, a tubular body portion extending obliquely downward from the inlet end 110, and a downward outlet end to allow the material to be discharged under the action of gravity without hindrance. The inlet end 110 is located at a lower side of the outlet 107, so that the material on the carrier plate 108 can firstly move around the carrier plate 108 by a circle under the action of the rotational vibration force and then be discharged from the discharge port 108, thereby further improving the tapping time and enhancing the tapping effect.

This support plate 108 is the circular cone of epirelief, makes the material on the support plate 108 concentrate to the edge, improves the plain effect, and the awl bottom of this bottom plate 103 has the opening, has made to form one between support plate 108 bottom and the bottom plate 103 and has placed the chamber, and vibrating motor 200 partly buries in should placing the chamber. The base 300 comprises a bottom barrel 301 arranged below the shell and a damping spring 302 arranged on the upper end surface of the bottom barrel 301 along the circumferential direction, and the top end of the damping spring 302 is connected with the bottom plate 103 and enables the vibration motor 200 to be arranged in the bottom barrel 301 in a suspended mode, so that the shell 100 is loaded and the damping effect is achieved.

It is above that the utility model discloses a major structure, its holistic mode of operation as follows: when the material guide plate is used, a user puts materials from the feeding hole 104, the materials move for four circles along the material guide plate 106 under the action of the rotational vibration force of the vibration motor 200 and then fall into the carrier plate 108 from the outlet 107, and the materials move for one circle around the carrier plate 108 and then are discharged from the discharging hole 109. The materials are fully extruded and collided with the inner walls of the guide plate 106 and the carrier plate 108 during the movement, so that the gaps among the materials are eliminated, the materials are more compact, and a good tap effect is achieved. Therefore to sum up, the utility model discloses can realize the ejection of compact by oneself under the prerequisite of guaranteeing good jolt ramming effect, solve the not enough that prior art exists.

However, those skilled in the art should realize that the above embodiments are only used for illustrating the present invention and not used as a limitation of the present invention, and that the changes and modifications to the above embodiments are all within the scope of the appended claims as long as they are within the true spirit of the present invention.

Claims (7)

1. A plain bumper, includes casing (100) and locates vibrating motor (200) of casing (100) bottom, its characterized in that: the top of the shell (100) is provided with a feeding hole (104), a placing plate (105) is arranged in the shell (100), the feeding hole (104) is located right above the central position of the placing plate (105), the placing plate (105) is provided with a material guide plate (106) which extends outwards from the central position of the placing plate (105) to the edge of the placing plate (105), and an outlet (107) is arranged at the tail end of the material guide plate (106) located on the edge side of the placing plate (105).

2. A compactor according to claim 1, wherein: the placing plate (105) is in an upward-convex conical shape, the conical top of the placing plate is positioned right below the feeding hole (104), and the material guide plate (106) is four circles and extends outwards to the edge of the placing plate (105) from the conical top in a spiral mode.

3. A compactor according to claim 1, wherein: the shell (100) is composed of an upper cover (101), a middle frame (102) and a bottom plate (103) which are sequentially fixed together from top to bottom, the feed port (104) is arranged at the top of the upper cover (101), and the placing plate (105) is arranged in the middle frame (102).

4. A compactor according to claim 3, wherein: the bottom plate (103) is in a downward convex conical shape, so that a conical cavity is formed on the upper surface of the bottom plate (103), a carrier plate (108) is arranged in the conical cavity, a discharge hole (109) is formed in the bottom plate (103) above the carrier plate (108), and an inlet end (110) of the discharge hole (109) is positioned on one side below the outlet (107).

5. A compactor according to claim 4, wherein: the conical bottom of the bottom plate (103) is provided with an opening, so that a placing cavity is formed between the bottom of the carrier plate (108) and the bottom plate (103), and the vibration motor (200) is arranged in the placing cavity.

6. A compactor according to claim 5, wherein: the carrier plate (108) is in a convex cone shape.

7. A compactor according to claim 4, wherein: the vibration motor is characterized by further comprising a bottom barrel (301) arranged below the vibration motor (200), a damping spring (302) is arranged on the upper end face of the bottom barrel (301) along the circumferential direction, and the damping spring (302) is connected with the bottom plate (103).

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