CN113237540B

CN113237540B - Precision-adjustable wagon balance suitable for multi-stage tonnage

Info

Publication number: CN113237540B
Application number: CN202110403887.9A
Authority: CN
Inventors: 张兴; 方秀民; 方石秀; 张春明; 程宝友
Original assignee: Anhui Tianping Machinery Co ltd
Current assignee: Anhui Tianping Machinery Co ltd
Priority date: 2021-04-15
Filing date: 2021-04-15
Publication date: 2022-09-06
Anticipated expiration: 2041-04-15
Also published as: CN113237540A

Abstract

The invention relates to the technical field of loaders, in particular to a precision-adjustable loaders suitable for multi-stage tonnage. The first slope plate and the second slope plate form a complete slope, the requirement of the vehicle for loading and unloading the wagon balance body is met, when the wagon balance is not used, the first slope plate and the second slope plate are disassembled, the first slope plate is kept in a vertical state, or the first slope plate is rotated to the position above the wagon balance body, so that the occupied space is reduced; the bearing mechanism connects the first slope plate and the second slope plate, and the connection mode is simple and convenient to operate.

Description

Precision-adjustable wagon balance suitable for multi-stage tonnage

Technical Field

The invention relates to the technical field of loadlocks, in particular to a precision-adjustable loadlock applicable to multi-stage tonnage.

Background

Weighbridges, also known as truck scales, are large scales placed on the ground, often used to weigh the tons of a truck, and are the primary weighing devices used by factories, mines, and other businesses for bulk goods metering. The existing wagon balance is provided with different digital precision display levels according to different weighing requirements.

The weighbridge is a ground weighbridge and a weighbridge in the mounting mode, the concrete foundation of the weighbridge is relatively simple to manufacture and convenient to maintain, the weighbridge is mounted on the ground, ventilation of the weighbridge body is facilitated, the service life of the weighbridge body is prolonged, and drainage is facilitated when the weighbridge is higher than the ground. However, the surface of the weighbridge is higher than the ground, so that the weighbridge needs to be provided with slopes on two sides in order to get on or off the train conveniently, and the occupied area is large.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides the precision-adjustable wagon balance suitable for multi-stage tonnage.

The invention solves the technical problems through the following technical means:

the precision-adjustable wagon balance suitable for multi-stage tonnage comprises a wagon balance body, a sensor, a connector, an installation bottom plate embedded part and a concrete foundation, wherein the lower end of the wagon balance body is connected with the connector, the sensor is arranged between the wagon balance body and the connector, the connector is connected with the concrete foundation through the installation bottom plate embedded part,

the concrete foundation is connected with two bases, the two bases are respectively located on two sides of the wagon balance body, the bases are hinged with first slope plates, one sides of the first slope plates are provided with second slope plates, and bearing mechanisms are arranged between the first slope plates and the second slope plates and connected with the first slope plates and the second slope plates.

As an improvement of the above technical solution, one end of the first slope plate is hinged with a first supporting plate for supporting the first slope plate, one end of the second slope plate is hinged with a second supporting plate for supporting the second slope plate, the first supporting plate and the second supporting plate are both connected with rotating shafts, and the two rotating shafts are movably sleeved with a same positioning frame body which is in contact with a concrete foundation;

the inner wall of the positioning frame body is connected with two positioning sleeves, rectangular long rods are movably inserted in the positioning sleeves, one ends, located outside the positioning sleeves, of the rectangular long rods are movably inserted into rectangular cavities formed in the rotating shaft, the rectangular cavities are matched with the rectangular long rods to fix the first supporting plates and the second supporting plates in a vertical state, and first positioning screws are connected in threaded through holes formed in the positioning sleeves in a threaded connection mode.

As an improvement of the technical scheme, the positioning frame body is connected with a fin plate, a second positioning screw is movably inserted into a through hole formed in the fin plate, and the second positioning screw is in threaded connection with a positioning nut pre-embedded into the concrete foundation.

As an improvement of the above technical solution, the receiving mechanism includes a first mounting groove provided on the first slope plate and a second mounting groove provided on the second slope plate, the inner wall of the first mounting groove is connected with a first receiving sleeve, the inner wall of the second mounting groove is connected with a second receiving sleeve, and the first receiving sleeve and the second receiving sleeve are movably inserted with a same receiving long rod.

As the improvement of the technical scheme, a third mounting groove is formed in the second bearing sleeve, a block body is connected to the bearing long rod, and the block body extends to the inside of the third mounting groove.

As an improvement of the technical scheme, the block body is made of iron, the inner wall of the second installation groove is connected with a first permanent magnet, and the inner wall of the third installation groove is connected with a second permanent magnet.

As an improvement of the technical proposal, the bearing mechanism comprises a first middle shaft and a second middle shaft, a through hole arranged on the first slope plate is rotationally connected with the first middle shaft, a through hole arranged on the second slope plate is rotationally connected with the second middle shaft,

the fixed cover of first axis has connect the first board of accepting, the fixed cover of second axis has connected the second and accepts the board, and the screw hole that sets up on first board of accepting and the second board of accepting has same accepting screw in the threaded connection.

As an improvement of the above technical scheme, the receiving mechanism includes a third center shaft, the through holes formed in the first slope plate and the second slope plate are all rotatably connected to the third center shaft, a third receiving plate is fixedly sleeved on the third center shaft, the third receiving plate is connected to a semi-cylinder, the two semi-cylinders form a cylinder, and a receiving nut is connected to a threaded section formed on the cylinder through a thread.

The invention has the beneficial effects that:

the first slope plate and the second slope plate form a complete slope, the requirement of the vehicle for loading and unloading the wagon balance body is met, when the wagon balance is not used, the first slope plate and the second slope plate are disassembled, the first slope plate is kept in a vertical state, or the first slope plate is rotated to the position above the wagon balance body, so that the occupied space is reduced;

the bearing mechanism connects the first slope plate and the second slope plate, so that the connection mode is simple and the operation is convenient;

the first supporting plate and the second supporting plate which are kept in a vertical state support a slope formed by the first slope plate and the second slope plate, so that the strength of the slope is enhanced, the load number of a running vehicle is increased, and the device is suitable for vehicles with multi-stage tonnage;

the base is articulated with first slope board, and first slope board is articulated with first backup pad, and first backup pad, second backup pad rotate with positioning frame through the pivot and are connected, second backup pad and the articulated connected mode of second slope board, make and can fold mechanism's part, reduce the space that occupies.

Drawings

FIG. 1 is a schematic diagram of an adjustable-precision wagon balance for multi-stage tonnage in accordance with an embodiment of the present invention;

FIG. 2 is a schematic diagram of a portion of an adjustable-precision wagon balance for multi-stage tonnage in accordance with an embodiment of the present invention;

FIG. 3 is a schematic top view of an embodiment of the present invention illustrating an assembly of a retention frame for a multi-stage tonnage precision adjustable platform scale;

FIG. 4 is a schematic structural diagram of a receiving mechanism of an adjustable-precision wagon balance for multi-stage tonnage according to embodiment 1 of the present invention;

FIG. 5 is a schematic structural diagram of a receiving mechanism of an adjustable-precision wagon balance for multi-stage tonnage according to embodiment 2 of the present invention;

FIG. 6 is a schematic diagram of a receiving mechanism of an adjustable-precision wagon balance for multi-stage tonnage in accordance with embodiment 3 of the present invention;

reference numerals: a wagon body 1; a sensor 101; a connector 102; installing a bottom plate embedded part 103; a concrete foundation 2; a base 3; a first slope plate 4; a first mounting groove 401; a second slope plate 5; a second mounting groove 501; a receiving mechanism 6; a first receiving sleeve 611; a second receiving sleeve 612; a long receiving bar 613; a third mounting groove 614; a block 615; a first permanent magnet 616; a second permanent magnet 617; a first bottom bracket 621; a first receiving plate 622; a second bottom bracket 623; a second bearing plate 624; a receiving screw 625; a third medial axis 631; a third bearing plate 632; a half cylinder 633; a receiving nut 634; a first support plate 7; a second support plate 8; a rotating shaft 9; a positioning frame body 10; a positioning sleeve 11; a rectangular long rod 12; a first positioning screw 13; a fin plate 14; a second set screw 15; a positioning nut 16.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present.

Example 1

As shown in fig. 1-2, the precision-adjustable weighbridge suitable for multi-stage tonnage comprises a weighbridge body 1, a sensor 101, a connector 102, a mounting bottom plate embedded part 103 and a concrete foundation 2, wherein the lower end of the weighbridge body 1 is connected with the connector 102, the sensor 101 is arranged between the weighbridge body 1 and the connector 102, the connector 102 is connected with the concrete foundation 2 through the mounting bottom plate embedded part 103,

the concrete foundation 2 is connected with two bases 3, and two bases 3 are located the both sides of weighbridge body 1 respectively, and base 3 articulates there is first ramp plate 4, and one side of first ramp plate 4 is provided with second ramp plate 5, is provided with receiving mechanism 6 between first ramp plate 4 and the second ramp plate 5, and receiving mechanism 6 connects first ramp plate 4 and second ramp plate 5.

In the present case, first ramp plate 4 and second ramp plate 5 are connected through receiving mechanism 6 and are formed complete slope, the one end of first ramp plate 4 is articulated with base 3, the one end of second ramp plate 5 is taken on concrete foundation 2, satisfy the demand of wagon balance body 1 about the vehicle, when using, assemble the slope, easy operation, when not using, dismantle first ramp plate 4 and second ramp plate 5, first ramp plate 4 keeps in vertical state, or rotate first ramp plate 4 to wagon balance body 1's top, reduce the occupation of land space.

As shown in fig. 3, one end of the first slope plate 4 is hinged with a first supporting plate 7 supporting the first slope plate 4, one end of the second slope plate 5 is hinged with a second supporting plate 8 supporting the second slope plate 5, both the first supporting plate 7 and the second supporting plate 8 are connected with rotating shafts 9, and the two rotating shafts 9 are movably sleeved with a same positioning frame 10 contacting with the concrete foundation 2;

the inner wall of the positioning frame body 10 is connected with two positioning sleeves 11, rectangular long rods 12 are movably inserted in the positioning sleeves 11, one ends of the rectangular long rods 12, which are positioned outside the positioning sleeves 11, are movably inserted into rectangular cavities formed in the rotating shaft 9, the rectangular cavities are matched with the rectangular long rods 12 to fix the first supporting plate 7 and the second supporting plate 8 in a vertical state, and first positioning screws 13 are connected in threaded through holes formed in the positioning sleeves 11 through threads; the positioning frame body 10 is connected with a fin plate 14, a second positioning screw 15 is movably inserted into a through hole formed in the fin plate 14, and the second positioning screw 15 is in threaded connection with a positioning nut 16 pre-embedded into the concrete foundation 2.

In the scheme, when the first supporting plate 7 and the second supporting plate 8 need to be used, the rectangular long rod 12 is inserted into the rectangular cavity on the rotating shaft 9, the first supporting plate 7 and the second supporting plate 8 are kept in a vertical state, the first positioning screw 13 is rotated to be abutted against the rectangular long rod 12, the position of the rectangular long rod 12 is fixed, the positioning frame body 10 is in contact with the concrete foundation 2, the second positioning screw 15 is in threaded connection with the positioning nut 16, the position of the positioning frame body 10 is fixed, and the stability of the position of a component is improved;

the first support plate 7 and the second support plate 8 which are kept in a vertical state support a slope composed of the first slope plate 4 and the second slope plate 5, the strength of the slope is enhanced, the load number of a running vehicle is increased, the device is suitable for vehicles with multi-stage tonnage,

the base 3 is articulated with first ramp plate 4, and first ramp plate 4 is articulated with first backup pad 7, and first backup pad 7, second backup pad 8 rotate with location framework 10 through pivot 9 and are connected, second backup pad 8 and the articulated connected mode of second ramp plate 5, make and can fold mechanism's part, reduce the space that occupies.

As shown in fig. 4, the receiving mechanism 6 includes a first mounting groove 401 formed on the first slope board 4 and a second mounting groove 501 formed on the second slope board 5, a first receiving sleeve 611 is connected to an inner wall of the first mounting groove 401, a second receiving sleeve 612 is connected to an inner wall of the second mounting groove 501, and the same receiving long rod 613 is movably inserted into the first receiving sleeve 611 and the second receiving sleeve 612;

a third mounting groove 614 is formed in the second receiving sleeve 612, a block 615 is connected to the receiving long rod 613, and the block 615 extends into the third mounting groove 614; the block body 615 is made of iron, the inner wall of the second installation groove 501 is connected with a first permanent magnet 616, and the inner wall of the third installation groove 614 is connected with a second permanent magnet 617.

In the present embodiment, one end of the receiving rod 613 located inside the second receiving sleeve 612 is inserted into the first receiving sleeve 611, so that the first slope plate 4 and the second slope plate 5 are kept on the same straight line, and the receiving rod 613 connects the first slope plate 4 and the second slope plate 5, which is simple to operate.

The arrangement of the first permanent magnet 616 and the second permanent magnet 617, when the long receiving rod 613 is located inside the second receiving sleeve 612, the block 615 is adsorbed on the first permanent magnet 616, and when one end of the long receiving rod 613 is inserted into the first receiving sleeve 611, the block 615 is adsorbed on the second permanent magnet 617, so that the stability of the component is improved;

the first bearing sleeve 611 and the second bearing sleeve 612 are respectively arranged in the first mounting groove 401 and the second mounting groove 501, so that the size of the device is reduced.

Example 2

As shown in fig. 5, the supporting mechanism 6 includes a first central axle 621 and a second central axle 623, a through hole formed on the first slope plate 4 is rotatably connected to the first central axle 621, a through hole formed on the second slope plate 5 is rotatably connected to the second central axle 623,

a first bearing plate 622 is fixedly sleeved on the first middle shaft 621, a second bearing plate 624 is fixedly sleeved on the second middle shaft 623, and the same bearing screw 625 is in threaded connection with threaded holes formed in the first bearing plate 622 and the second bearing plate 624.

In this case, the first receiving plate 622 and the second receiving plate 624 are rotated to the threaded holes on the first receiving plate 622 and the second receiving plate 624 to be located on the same vertical line, the receiving screw 625 is connected with the threaded hole, the first slope plate 4 and the second slope plate 5 are connected, meanwhile, the relative position is fixed, and the connection mode of the first slope plate 4 and the second slope plate 5 is simple and convenient to operate.

Example 3

As shown in fig. 6, the receiving mechanism 6 includes a third central shaft 631, through holes formed on the first slope plate 4 and the second slope plate 5 are both rotatably connected to the third central shaft 631, a third receiving plate 632 is fixedly sleeved on the third central shaft 631, the third receiving plate 632 is connected to a half cylinder 633, two half cylinders 633 form a cylinder, a receiving nut 634 is screwed on a threaded section formed on the cylinder,

in this case, the receiving rod 613 is rotated until the receiving rod 613 on the first slope plate 4 abuts against the movable end of the receiving rod 613 on the second slope plate 5, the receiving nut 634 is connected with the threaded section on the cylinder, the first slope plate 4 and the second slope plate 5 are connected, and meanwhile, the relative positions are fixed, so that the connection mode of the first slope plate 4 and the second slope plate 5 is simple and the operation is convenient.

It is noted that, in this document, relational terms such as first and second, and the like, if any, are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

The above examples are only intended to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims

1. Weighbridge with adjustable precision suitable for multi-stage tonnage, including weighbridge body (1), sensor (101), connector (102), mounting plate built-in fitting (103) and concrete foundation (2), the lower extreme and connector (102) of weighbridge body (1) are connected, set up sensor (101) between weighbridge body (1) and connector (102), and connector (102) are connected its characterized in that through mounting plate built-in fitting (103) and concrete foundation (2): the concrete foundation (2) is connected with two bases (3), the two bases (3) are respectively positioned on two sides of the wagon balance body (1), the bases (3) are hinged with first slope plates (4), one sides of the first slope plates (4) are provided with second slope plates (5), bearing mechanisms (6) are arranged between the first slope plates (4) and the second slope plates (5), and the bearing mechanisms (6) are connected with the first slope plates (4) and the second slope plates (5);

one end of the first slope plate (4) is hinged with a first supporting plate (7) for supporting the first slope plate (4), one end of the second slope plate (5) is hinged with a second supporting plate (8) for supporting the second slope plate (5), the first supporting plate (7) and the second supporting plate (8) are both connected with rotating shafts (9), and the two rotating shafts (9) are movably sleeved with a same positioning frame body (10) which is in contact with the concrete foundation (2); the inner wall of the positioning frame body (10) is connected with two positioning sleeves (11), a rectangular long rod (12) is movably inserted in each positioning sleeve (11), one end, located outside each positioning sleeve (11), of each rectangular long rod (12) is movably inserted into a rectangular cavity formed in the corresponding rotating shaft (9), each rectangular cavity is matched with the corresponding rectangular long rod (12) to fix the corresponding first supporting plate (7) and the corresponding second supporting plate (8) in a vertical state, and a first positioning screw (13) is in threaded connection with a threaded through hole formed in each positioning sleeve (11);

the bearing mechanism (6) comprises a first mounting groove (401) arranged on the first slope plate (4) and a second mounting groove (501) arranged on the second slope plate (5), the inner wall of the first mounting groove (401) is connected with a first bearing sleeve (611), the inner wall of the second mounting groove (501) is connected with a second bearing sleeve (612), and the first bearing sleeve (611) and the second bearing sleeve (612) are movably inserted with the same bearing long rod (613); a third mounting groove (614) is formed in the second bearing sleeve (612), a block body (615) is connected to the bearing long rod (613), and the block body (615) extends into the third mounting groove (614); the block body (615) is made of iron, the inner wall of the second mounting groove (501) is connected with a first permanent magnet (616), and the inner wall of the third mounting groove (614) is connected with a second permanent magnet (617).

2. The adjustable-precision wagon balance for multi-stage tonnage of claim 1, wherein: the concrete foundation structure is characterized in that a fin plate (14) is connected to the positioning frame body (10), a second positioning screw (15) is movably inserted into a through hole formed in the fin plate (14), and the second positioning screw (15) is in threaded connection with a positioning nut (16) embedded into the concrete foundation (2).