CN211656647U - High-precision quantitative control cabinet - Google Patents

Abstract

The utility model discloses a high-accuracy quantitative control cabinet relates to flow control equipment technical field. One side of the cabinet body, which is far away from the cabinet door, is provided with a connecting seat for connecting and fixing adjacent quantitative cabinets, one side of the connecting seat is provided with a plurality of connecting holes which are arranged in parallel, the other side of the connecting seat is provided with a connecting rod which is connected in the connecting seat in a sliding way, one end of the connecting hole, which is positioned in the connecting seat, is provided with a locking hole which is vertical to the connecting hole, the connecting rod is, the tail end of the connecting rod corresponding to the locking hole is provided with a locking rod which is connected on the connecting rod in a sliding way and driven by a locking driving piece arranged in the connecting rod, when the connecting rod is positioned in the connecting hole, the locking rod is arranged in the locking hole in a penetrating way, can be mutually fixed when a plurality of quantitative cabinets are required to be combined for use in industrial mass production, can ensure the installation stability and the use stability of the quantitative cabinets, achieves better quantitative effect, meanwhile, the quantitative cabinets can be conveniently connected and fixed by operators, and the operators are prevented from installing one by one.

Description

High-precision quantitative control cabinet

Technical Field

The utility model relates to a flow control equipment technical field especially relates to a high-accuracy quantitative control cabinet.

Background

With the social development and the continuous improvement of the wages, treatment, benefits and the like of personnel, various industries make various attempts for production automation, and the automatic production control becomes a necessary trend.

The control cost is also a factor to be considered by a plurality of enterprises, the quantitative system/equipment/device has the characteristics of automatic control charging, simple and easy operation, safe and reliable control, simple system composition, economy, practicality and the like, directly replaces manual material beating, manual material preparation, manual control, manual canning and manual subpackaging, can be combined with manual control and automatic control, is a project which can be used by a plurality of enterprises at present or needs to be improved, particularly, the operation of replacement personnel can be greatly improved without high cost, and the enterprise selection of the working efficiency can be improved.

At present, chinese patent publication No. CN2900506Y discloses a raw material flow control device, which comprises two parts, namely a raw material monitoring device and a control device, wherein each raw material has one raw material monitoring device, two or three raw materials have two or three raw material monitoring devices, and only one controller is provided;

the raw material monitoring device is as follows: each set of raw material monitoring device is composed of a raw material metering tank, a liquid level transmitter and a controller, wherein the liquid level transmitter is connected with the controller through an input signal line; the control device is connected with the display screen through the controller and is connected with the metering pump through a control signal line, and a discharge port of the metering pump is communicated with the chlorine dioxide generator through an output pipeline and is communicated with the raw material metering tank through a valve.

Although the feed flow control device can ensure that the chlorine dioxide generator is accurate in feeding raw materials, simple in structure and low in cost, when the quantitative cabinet is used for industrial production, a plurality of quantitative cabinets are generally required to work simultaneously, at the moment, an operator generally fixes a plurality of quantitative cabinets in a combined manner to ensure the installation and use stability of the quantitative cabinets, the quantitative cabinets are inconvenient to be connected and fixedly used, the operator needs to install one by one, and the workload of the operator is increased.

SUMMERY OF THE UTILITY MODEL

The utility model aims at the above-mentioned technical problem, overcome prior art's shortcoming, provide a high-accuracy quantitative switch board.

In order to solve the technical problem, the utility model provides a high-accuracy quantitative control cabinet.

The technical effects are as follows: can be fixed each other when industry volume production needs many quantitative cabinets jointly to use, can guarantee quantitative cabinet installation stability and stability in use, reach better ration effect, can make things convenient for operating personnel to connect fixedly many quantitative cabinets simultaneously, avoid operating personnel to carry out platform by platform installation, reduced operating personnel's work load, promoted operating efficiency.

The utility model discloses the technical scheme who further injects is: the utility model provides a high-accuracy quantitative control cabinet, including the rack body, one side that the cabinet door was kept away from to the rack body is equipped with the connecting seat, a connection for adjacent quantitative cabinet is fixed, connecting seat one side is equipped with a plurality of mutual parallel arrangement's connecting hole, the opposite side is equipped with the connecting rod of connection in the connecting seat of sliding, the one end that the connecting hole is located the connecting seat is equipped with the vertically locking hole with it, connecting rod cavity sets up, its end that corresponds the locking hole is equipped with the check lock lever, the check lock lever slides and connects on the connecting rod, and through the drive of the locking driving piece of locating in the connecting rod, when the connecting rod is.

Further, the locking driving piece is including being the catch bar that conical shape set up, and the catch bar is located between two check lock levers for promote the check lock lever when needing check lock lever and check lock hole adaptation and slide to in the check lock hole.

Preceding high-accuracy quantitative control cabinet, the locking driving piece includes that the level locates the locking cylinder in the connecting rod, and the catch bar is integrative to be located on the output shaft of locking cylinder, and the slope of catch bar bottom surface sets up, and the inclined plane of catch bar is laminated with the side of catch bar.

Preceding high-accuracy quantitative control cabinet, the locking driving piece still includes that the cover establishes the reset spring on the check lock lever, and reset spring one end is fixed on the check lock lever, and the other end is fixed on the hollow medial surface of connecting rod for drive check lock lever slides to the connecting rod central line position.

The high-precision quantitative control cabinet is characterized in that a pushing mechanism is arranged in the connecting seat and used for pushing the connecting rod to slide into the connecting hole, the pushing mechanism comprises a pushing block, the connecting rod is fixed on the pushing block, and the pushing mechanism further comprises a pushing rack connected in the connecting seat in a sliding manner and a pushing gear connected in the connecting seat in a rotating manner.

The high-precision quantitative control cabinet is characterized in that the pushing gear is meshed with the pushing rack, the pushing gear is connected in the connecting seat through the rotating shaft, a pushing worm wheel and a pushing worm are arranged in the connecting seat, the pushing worm wheel and the rotating shaft are arranged coaxially, and a pushing motor is further arranged in the connecting seat and used for driving the pushing worm to rotate.

The utility model has the advantages that:

(1) in the utility model, when an operator needs to use a plurality of mechanisms together, the cabinet body can be arranged side by side, the connecting rod in the connecting seat is pushed into the connecting hole through the pushing mechanism, the locking driving piece is started after the connecting rod is in place, the locking rod is pushed into the locking hole, and at the moment, the connection and the fixation of adjacent control cabinets can be realized through the matching of the connecting rod and the connecting hole and the matching of the locking rod and the locking hole, so that a plurality of quantitative control cabinets can be conveniently and synchronously connected for use;

(2) in the utility model, the penetration depth of the locking rod can be changed through the movement of the pushing rod, and the pushing rod is a conical surface, so that the locking rod can be pushed into the locking hole to be connected along with the pushing of the pushing rod, thereby realizing the connection and fixation of the whole control cabinet;

(3) in the utility model, the reset of the locking rod can be realized through the reset spring, the pushing gear can drive the pushing rack to rotate at the same time, so that the pushing connecting rod is connected, and the self-locking performance between the locking worm wheel and the locking worm can ensure the firm degree of connection;

(4) the utility model discloses in, can be when industry volume production needs many quantitative cabinets jointly to use reciprocal anchorage, can guarantee quantitative cabinet installation stability and stability in use, reach better ration effect, can make things convenient for operating personnel to connect fixedly to many quantitative cabinets simultaneously, avoid operating personnel to carry out platform by platform installation, reduced operating personnel's work load, promoted operating efficiency.

Drawings

FIG. 1 is a schematic structural view of example 1;

FIG. 2 is a structural view of a lock driving member in embodiment 1;

fig. 3 is a structural view of the lock driving member in embodiment 2.

Wherein: 1. a cabinet body; 2. a connecting seat; 21. connecting holes; 22. a locking hole; 23. a locking lever; 3. locking the driving member; 31. a push rod; 32. a locking cylinder; 33. a return spring; 4. a pushing mechanism; 41. a push block; 42. pushing the rack; 43. a push gear; 44. pushing the worm gear; 45. pushing the worm; 46. a push motor.

Detailed Description

The high-precision quantitative control cabinet provided by the embodiment has a structure shown in fig. 1-3, and comprises a cabinet body 1, wherein a connecting seat 2 is arranged on one side of the cabinet body 1 away from a cabinet door and used for connecting and fixing adjacent quantitative cabinets, a plurality of connecting holes 21 arranged in parallel are arranged on one side of the connecting seat 2, a connecting rod connected in the connecting seat 2 in a sliding manner is arranged on the other side of the connecting seat 2, and a locking hole 22 perpendicular to the connecting hole is arranged at one end of the connecting hole 21 positioned in the connecting seat 2;

as shown in fig. 1-3, the connecting rod is hollow, and a locking rod 23 is disposed at the end of the connecting rod corresponding to the locking hole 22, the locking rod 23 is connected to the connecting rod in a sliding manner and driven by the locking driving member 3 disposed in the connecting rod, and when the connecting rod is located in the connecting hole 21, the locking rod 23 is disposed in the locking hole 22 in a penetrating manner. The locking driving member 3 comprises a pushing rod 31 which is arranged in a conical shape, and the pushing rod 31 is located between the two locking rods 23 and used for pushing the locking rods 23 to slide into the locking holes 22 when the locking rods 23 are required to be matched with the locking holes 22.

As shown in fig. 1-3, the locking driving member 3 includes a locking cylinder 32 horizontally disposed in the connecting rod, a pushing rod 31 is integrally disposed on an output shaft of the locking cylinder 32, a bottom surface of the locking rod 23 is obliquely disposed, and an inclined surface of the locking rod 23 is attached to a side surface of the pushing rod 31. The locking driving member 3 further comprises a return spring 33 sleeved on the locking rod 23, one end of the return spring 33 is fixed on the locking rod 23, and the other end of the return spring is fixed on the hollow inner side surface of the connecting rod and used for driving the locking rod 23 to slide towards the central line position of the connecting rod.

As shown in fig. 1-3, a pushing mechanism 4 is disposed in the connecting seat 2 for pushing the connecting rod to slide into the connecting hole 21, the pushing mechanism 4 includes a pushing block 41, the connecting rod is fixed on the pushing block 41, the pushing mechanism 4 further includes a pushing rack 42 slidably connected in the connecting seat 2, and a pushing gear 43 rotatably connected in the connecting seat 2.

As shown in fig. 1-3, the pushing gear 43 is engaged with the pushing rack 42, the pushing gear 43 is connected in the connecting base 2 through a rotating shaft, a pushing worm wheel 44 and a pushing worm 45 are arranged in the connecting base 2, the pushing worm wheel 44 and the rotating shaft are coaxially arranged, and a pushing motor 46 for driving the pushing worm 45 to rotate is further arranged in the connecting base 2.

In addition to the above embodiments, the present invention may have other embodiments. All the technical solutions formed by adopting equivalent substitutions or equivalent transformations fall within the protection scope claimed by the present invention.

Claims (6)

1. The utility model provides a high-accuracy quantitative control cabinet, includes rack body (1), its characterized in that: one side that cabinet door was kept away from in rack body (1) is equipped with connecting seat (2), a connection for adjacent ration cabinet is fixed, connecting seat (2) one side is equipped with connecting hole (21) of a plurality of mutual parallel arrangement, the opposite side is equipped with the connecting rod of connection in connecting seat (2) of sliding, the one end that connecting hole (21) are located in connecting seat (2) is equipped with vertically locking hole (22) with it, connecting rod cavity sets up, its end that corresponds locking hole (22) is equipped with check lock lever (23), check lock lever (23) slide and connect on the connecting rod, and through locating locking driving piece (3) drive in the connecting rod, when the connecting rod is located connecting hole (21), check lock lever (23) are worn to locate in locking hole (22).

2. The high-precision quantitative control cabinet according to claim 1, characterized in that: locking driving piece (3) are including being catch bar (31) that conical shape set up, catch bar (31) are located between two check lock poles (23) for when needing check lock pole (23) and check lock hole (22) adaptation, promote check lock pole (23) and slide to check lock hole (22) in.

3. The high-precision quantitative control cabinet according to claim 2, characterized in that: locking driving piece (3) are including the locking cylinder (32) that the level was located in the connecting rod, and catch bar (31) an organic whole is located on the output shaft of locking cylinder (32), and check lock lever (23) bottom surface slope sets up, and the inclined plane of check lock lever (23) is laminated with the side of catch bar (31).

4. The high-precision quantitative control cabinet according to claim 3, characterized in that: locking driving piece (3) still establish reset spring (33) on check lock lever (23) including the cover, reset spring (33) one end is fixed on check lock lever (23), and the other end is fixed on the hollow medial surface of connecting rod for drive check lock lever (23) slide to the connecting rod central line position.

5. The high-precision quantitative control cabinet according to claim 1, characterized in that: be equipped with pushing mechanism (4) in connecting seat (2) for promote the connecting rod and slide to connecting hole (21) in, pushing mechanism (4) include ejector pad (41), and the connecting rod is fixed on ejector pad (41), and pushing mechanism (4) still include push rack (42) of sliding connection in connecting seat (2) to and rotate the promotion gear (43) of connection in connecting seat (2).

6. The high-precision quantitative control cabinet according to claim 5, characterized in that: promote gear (43) and promote rack (42) intermeshing, promote gear (43) and connect in connecting seat (2) through the pivot, be equipped with in connecting seat (2) and promote worm wheel (44) and promote worm (45), promote worm wheel (44) and pivot coaxial center setting, still be equipped with in connecting seat (2) and promote motor (46) for it is rotatory to drive promotion worm (45).

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