CN203824623U - Single-port bidirectional hopper scale - Google Patents

Abstract

The utility model discloses a single-port bidirectional hopper scale which comprises a weighing bucket, a bearing rack, sensors and guiding grooves, wherein the weighing bucket is fixed on the top of the bearing rack, the two sides of the weighing bucket are each provided with a sensor, a digital control disc is arranged on the center of the bearing rack, two guiding grooves are arranged under the weighing bucket, two guiding groove connection ports are arranged on the bottom of the weighing bucket, and the guiding groove connecting ports are movably connected with the weighing bucket and are in a square structure. A triangular protrusion is arranged on the bottom of each guiding groove connecting port, and a bracing frame matching with the triangular protrusion is arranged outside the guiding groove connecting ports and movably connected with the bottom of the weighing bucket through a rotary shaft. Single-port bidirectional hopper scale allows bidirectional discharging through one discharging port by a control system, and material can be discharged directly from guiding grooves in different directions by the weighing bucket, thereby saving a guiding bucket, substantially lowering the height of the entire system, and solving problems for manufacturers whose workshops are not high enough.

Description

The two-way bunker scale of a kind of single port

Technical field

The utility model relates to bunker scale equipment technical field, is specially the two-way bunker scale of a kind of single port.

Background technology

Traditional bunker scale is all that the unidirectional and twoport of single port is two-way mostly, or below is additional draws the object that hopper reaches Bidirectional discharging.

Utility model content

The purpose of this utility model is to overcome the shortcoming and defect of prior art, provides a kind of and by control system, can realize the two-way bunker scale of single port of Bidirectional discharging by a discharging opening.

The utility model is achieved through the following technical solutions:

The two-way bunker scale of a kind of single port, comprise weighing bucket, bearing frame, sensor and material guide groove, weighing bucket is fixed on bearing frame top, respectively there is a sensor weighing bucket both sides, there is a numerical control disc at bearing frame middle part, weighing bucket below is two material guide grooves, two material guide groove connectors are arranged at weighing bucket bottom, material guide groove connector is flexibly connected with weighing bucket, material guide groove connector is square structure, in the bottom of material guide groove connector, there is a triangle projection, in the outside of material guide groove connector, there is a bracing frame matching with triangle projection, bracing frame is flexibly connected with weighing bucket bottom by a rotating shaft, on the crossbeam of the outside of bracing frame, there is a bearing, arc surface in this bearing and triangle projection matches, two described sensors are connected with two bracing frames by a telescopic rod respectively.

As preferably, described bearing is positioned at the centre position of crossbeam.

As preferably, two described sensors are connected with numerical control disc.

As preferably, two described material guide groove connectors are symmetric offset spread.

As preferably, described telescopic rod is connected to bracing frame both sides.

Compared with prior art, the beneficial effects of the utility model are: the two-way bunker scale of single port can be realized Bidirectional discharging by a discharging opening by control system, like this can be by weighing bucket directly to the material guide groove discharging of different directions, thereby saved, draw these parts of hopper, greatly reduce the height of whole system, for a lot of factory building height, inadequate producer has solved this problem.

Accompanying drawing explanation

Below by embodiment, by reference to the accompanying drawings the utility model is further described.

Fig. 1 is structural representation of the present utility model;

Fig. 2 is the structural representation of weighing bucket bottom in Fig. 1;

Fig. 3 is the cut-open view of Fig. 2 centre bearer and triangular shape projection;

1 is weighing bucket, and 2 is bearing frame, and 3 is sensor, and 4 is material guide groove, and 5 is numerical control disc, and 6 is material guide groove connector, and 7 is triangle projection, and 8 is bracing frame, and 9 is crossbeam, and 10 is bearing.

Embodiment

As Figure 1-3, the two-way bunker scale of a kind of single port, comprise weighing bucket 1, bearing frame 2, sensor 3 and material guide groove 4, weighing bucket 1 is fixed on bearing frame 2 tops, respectively there is a sensor 3 weighing bucket 1 both sides, there is a numerical control disc 5 at bearing frame 2 middle parts, weighing bucket 1 below is two material guide grooves 4, two material guide groove connectors 6 are arranged at weighing bucket 1 bottom, material guide groove connector 6 is flexibly connected with weighing bucket 1, material guide groove connector 6 is square structure, in the bottom of material guide groove connector 6, there is a triangle projection 7, in the outside of material guide groove connector 6, there is a bracing frame 8 matching with triangle projection 7, bracing frame 8 is flexibly connected with weighing bucket 1 bottom by a rotating shaft, on the outside of bracing frame 8 crossbeam 9, there is a bearing 10, this bearing 10 matches with the arc surface in triangle projection 7, two described sensors 3 are connected with two bracing frames 8 by a telescopic rod (not shown) respectively.Described bearing 10 is positioned at the centre position of crossbeam 9.Two described sensors 3 are connected with numerical control disc 5.Two described material guide groove connectors 6 are symmetric offset spread.Described telescopic rod (not shown) is connected to bracing frame 8 both sides.

The two-way bunker scale of single port can be realized Bidirectional discharging by a discharging opening by control system, by numerical control disc 5, control two sensors 3, two sensors 3 are connected with two bracing frames 8 by a telescopic rod (not shown) respectively, like this can be by direct material guide groove 4 dischargings to different directions of weighing bucket 1, thereby saved, draw these parts of hopper, greatly reduce the height of whole system.

Above-described embodiment; it is an example of the present utility model; be not for limiting enforcement of the present utility model and interest field, all or technical schemes of being equal to identical with content described in the utility model claim, all should be included in the utility model protection domain.

Claims (5)

1. the two-way bunker scale of single port, comprise weighing bucket, bearing frame, sensor and material guide groove, weighing bucket is fixed on bearing frame top, respectively there is a sensor weighing bucket both sides, there is a numerical control disc at bearing frame middle part, weighing bucket below is two material guide grooves, it is characterized in that: two material guide groove connectors are arranged at weighing bucket bottom, material guide groove connector is flexibly connected with weighing bucket, material guide groove connector is square structure, in the bottom of material guide groove connector, there is a triangle projection, in the outside of material guide groove connector, there is a bracing frame matching with triangle projection, bracing frame is flexibly connected with weighing bucket bottom by a rotating shaft, on the crossbeam of the outside of bracing frame, there is a bearing, arc surface in this bearing and triangle projection matches, two described sensors are connected with two bracing frames by a telescopic rod respectively.

2. the two-way bunker scale of a kind of single port according to claim 1, is characterized in that: described bearing is positioned at the centre position of crossbeam.

3. the two-way bunker scale of a kind of single port according to claim 1, is characterized in that: two described sensors are connected with numerical control disc.

4. the two-way bunker scale of a kind of single port according to claim 1, is characterized in that: two described material guide groove connectors are symmetric offset spread.

5. the two-way bunker scale of a kind of single port according to claim 1, is characterized in that: described telescopic rod is connected to bracing frame both sides.