阅读说明：本技术 一种用于起重设备的电机组件安装箱 (A motor element install bin for hoisting equipment ) 是由 宋瑞辉 于 2021-06-16 设计创作，主要内容包括：本发明属于起重设备领域,具体的说是一种用于起重设备的电机组件安装箱,包括左箱体和右箱体,所述左箱体包括主预留洞口、主第一螺孔、主安装螺孔、主板、主固定螺孔、主电机螺孔、主传动轴孔、主第一安装座和主第二安装座,所述主板的左侧开设有主预留洞口,所述主预留洞口的上方平行设置有主第一螺孔,所述主第一螺孔的右侧平行设置有主安装螺孔；通过左箱体、主预留洞口、主板、主固定螺孔、主传动轴孔、右箱体、副固定螺孔、副传动轴孔和副板之间的配合工作让设备在实际使用中,电机既可以安装在左边,也可以安装在右边,大大的提升了实际使用的便利性,摈弃了传统的只能安装在一边,所以使用方便,且使用环境不受限。(The invention belongs to the field of hoisting equipment, and particularly relates to a motor assembly mounting box for the hoisting equipment, which comprises a left box body and a right box body, wherein the left box body comprises a main reserved hole, a main first screw hole, a main mounting screw hole, a main board, a main fixing screw hole, a main motor screw hole, a main transmission shaft hole, a main first mounting seat and a main second mounting seat; through left box, main reservation entrance to a cave, mainboard, main fixed screw, main drive shaft hole, right box, vice fixed screw, vice drive shaft hole and the accessory plate between the cooperation work let equipment in the in-service use, the motor both can install on the left side, also can install on the right, great promotion the in-service use convenience, abandoned traditional can only install on one side, so convenient to use, and service environment is not restricted.)

1. The utility model provides a motor element install bin for hoisting equipment which characterized in that: the novel multifunctional box comprises a left box body (1) and a right box body (2), wherein the left box body (1) comprises a main reserved hole (101), a main first screw hole (102), a main mounting screw hole (103), a main board (104), a main fixing screw hole (105), a main motor screw hole (106), a main transmission shaft hole (107), a main first mounting seat (108) and a main second mounting seat (109), the main reserved hole (101) is formed in the left side of the main board (104), the main first screw hole (102) is arranged above the main reserved hole (101) in parallel, the main mounting screw hole (103) is arranged on the right side of the main first screw hole (102) in parallel, the main fixing screw hole (105) is formed above the main board (104), the main motor screw hole (106) is arranged below the main fixing screw hole (105) in parallel, the main transmission shaft hole (107) is formed in the right side of the main board (104), the main first mounting seat (108) is arranged on the right side of the main reserved hole (101) in parallel, a main second mounting seat (109) is arranged on the right side of the main first mounting seat (108) in parallel;

the right box body (2) is positioned below the left box body (1), the right box body (2) comprises an auxiliary fixing screw hole (201), an auxiliary motor screw hole (202), an auxiliary transmission shaft hole (203), an auxiliary plate (204), an auxiliary installation screw hole (205), an auxiliary first screw hole (206), an auxiliary reserved hole (207), an auxiliary first installation seat (208) and an auxiliary second installation seat (209), the auxiliary fixing screw hole (201) is formed in the left side of the auxiliary plate (204), the auxiliary motor screw hole (202) is arranged below the auxiliary fixing screw hole (201) in parallel, the auxiliary transmission shaft hole (203) is arranged below the auxiliary motor screw hole (202) in parallel, the auxiliary installation screw hole (205) is formed above the auxiliary plate (204), the auxiliary reserved hole (207) is formed in the right side of the auxiliary plate (204), the auxiliary first screw hole (206) is arranged on the left side of the auxiliary reserved hole (207) in parallel, the right side of the auxiliary transmission shaft hole (203) is provided with an auxiliary first mounting seat (208) in parallel, and the right side of the auxiliary first mounting seat (208) is provided with an auxiliary second mounting seat (209) in parallel.

2. A motor assembly mounting case for a lifting apparatus as claimed in claim 1, wherein: a penetrating structure is formed between the main reserved hole (101) and the main board (104), and the shape and the size of the main reserved hole (101) are the same as those of the auxiliary reserved hole (207).

3. A motor assembly mounting case for a lifting apparatus as claimed in claim 1, wherein: constitute between left side box (1) and the right box (2) and closely laminate, and the axis between left side box (1) and the right box (2) coincides mutually.

4. A motor assembly mounting case for a lifting apparatus as claimed in claim 1, wherein: the shape and size between the left box body (1) and the right box body (2) are the same, and a penetrating structure is formed between the left box body (1) and the main transmission shaft hole (107).

5. A motor assembly mounting case for a lifting apparatus as claimed in claim 1, wherein: the main transmission shaft hole (107) and the auxiliary transmission shaft hole (203) are the same in shape and size, and the central axis between the main transmission shaft hole (107) and the auxiliary transmission shaft hole (203) is overlapped.

6. A motor assembly mounting case for a lifting apparatus as claimed in claim 1, wherein: the central axis between the main mounting screw hole (103) and the auxiliary mounting screw hole (205) is coincident, and the shape and the size between the main mounting screw hole (103) and the auxiliary mounting screw hole (205) are the same.

7. A motor assembly mounting case for a lifting apparatus as claimed in claim 1, wherein: the main first mounting seat (108) and the auxiliary second mounting seat (209) are tightly attached, and the main first mounting seat (108) and the auxiliary second mounting seat (209) are identical in shape and size.

8. A motor assembly mounting case for a lifting apparatus as claimed in claim 1, wherein: the central axis between the main reserved hole (101) and the auxiliary reserved hole (207) is coincident, and a penetrating structure is formed between the auxiliary plate (204) and the auxiliary reserved hole (207).

Technical Field

The invention relates to the field of hoisting equipment, in particular to a motor component installation box for the hoisting equipment.

Background

The hoisting equipment starts a vertical or vertical and horizontal working stroke after material taking, is unloaded after reaching a destination, then moves to a material taking place in an empty way, completes a working cycle, and then carries out secondary hoisting or transportation.

The motor assembly mounting box in the hoisting equipment belongs to basic equipment, is a device for fixing the power mounting of the hoisting equipment, and is particularly used on the travelling crane hoisting equipment with an electric hoist for mounting the motor assembly.

The existing motor component installation box for the hoisting equipment cannot well perform symmetrical work in the use process, a motor cannot be installed on the left side or the right side in actual use, the convenience of actual use cannot be better improved, and the motor component installation box only can be installed on one side, so that the use is inconvenient, and the use environment is limited;

therefore, a motor assembly mounting case for a lifting device is proposed to solve the above problems.

Disclosure of Invention

In order to make up for the defects of the prior art and solve the problems that the motor cannot be symmetrically operated well in the using process, the motor cannot be arranged on the left side or the right side in actual use, the convenience of the actual use cannot be better improved, and the motor can only be arranged on one side, so that the motor assembly mounting box is inconvenient to use and the using environment is limited, the invention provides the motor assembly mounting box for the hoisting equipment.

The technical scheme adopted by the invention for solving the technical problems is as follows: the invention relates to a motor assembly mounting box for hoisting equipment, which comprises a left box body and a right box body, wherein the left box body comprises a main reserved hole, a main first screw hole, a main mounting screw hole, a main board, a main fixing screw hole, a main motor screw hole, a main transmission shaft hole, a main first mounting seat and a main second mounting seat, the main reserved hole is formed in the left side of the main board, the main first screw hole is arranged above the main reserved hole in parallel, the main mounting screw hole is arranged on the right side of the main first screw hole in parallel, the main fixing screw hole is formed above the main board, the main motor screw hole is arranged below the main fixing screw hole in parallel, the main transmission shaft hole is formed in the right side of the main reserved hole, the main first mounting seat is arranged on the right side of the main reserved hole in parallel, and the main second mounting seat is arranged on the right side of the main first mounting seat in parallel.

The right side box is located the below of left box, right side box includes vice fixed screw, vice motor screw, vice transmission shaft hole, subplate, vice installation screw, vice first screw, vice entrance to a cave of reserving, vice first mount pad and vice second mount pad, vice fixed screw has been seted up in the left side of subplate, the below parallel arrangement of vice fixed screw has vice motor screw, the below parallel arrangement of vice motor screw has vice transmission shaft hole, vice installation screw has been seted up to the top of subplate, vice entrance to a cave has been seted up to the right side of subplate, vice left side parallel arrangement who reserves the entrance to a cave has vice first screw, the right side parallel arrangement in vice transmission shaft hole has vice first mount pad, the right side parallel arrangement of vice first mount pad has vice second mount pad.

Preferably, a penetrating structure is formed between the main reserved hole and the main board, the main reserved hole and the auxiliary reserved hole are identical in shape and size, and the stability of the overall structure of the equipment is improved more comprehensively through the penetrating structure between the main reserved hole and the main board.

Preferably, constitute closely the laminating between left side box and the right box, and the axis between left side box and the right box coincides mutually, and the closely laminating between left side box and the right box lets the overall structure laminating effect of equipment better, the operation security of lifting means.

Preferably, the shape size between left side box and the right box is the same, and constitutes the structure that runs through between left side box and the final drive shaft hole, and the same whole operation security and the operating stability that lets equipment all have better promotion through the shape size between left side box and the right box.

Preferably, the shape size in main drive shaft hole and vice drive shaft hole is the same, and the axis between main drive shaft hole and the vice drive shaft hole coincides mutually, and the same shape size in main drive shaft hole and vice drive shaft hole lets the whole installation stability and the security of equipment all have better promotion.

Preferably, the central axis between main installation screw and the vice installation screw coincides mutually, and the shape size between main installation screw and the vice installation screw is the same, and the central axis coincidence between main installation screw and the vice installation screw lets the whole connection security and the stability of equipment all have more comprehensive promotion.

Preferably, constitute between main first mount pad and the vice second mount pad and closely laminate, and the shape size between main first mount pad and the vice second mount pad is the same, and the inseparable laminating between main first mount pad and the vice second mount pad lets the whole fixed effect and the fixed stability of equipment have better promotion.

Preferably, the main central axis between the reserved hole and the auxiliary reserved hole coincides with each other, a penetrating structure is formed between the auxiliary plate and the auxiliary reserved hole, and the safety of the whole structure of the equipment is improved better by coinciding the central axis between the main reserved hole and the auxiliary reserved hole.

The invention has the advantages that:

1. according to the invention, the motor can be arranged on the left side or the right side in actual use of the equipment through the matching work among the left box body, the main reserved hole, the main board, the main fixing screw hole, the main transmission shaft hole, the right box body, the auxiliary fixing screw hole, the auxiliary transmission shaft hole and the auxiliary board, so that the convenience in actual use is greatly improved, the traditional mode that the motor can only be arranged on one side is rejected, the use is convenient, and the use environment is not limited;

2. the invention leads the stability of the whole structure of the equipment to be more comprehensively improved through the penetrating structure between the main reserved hole and the main board, leads the laminating effect of the whole structure of the equipment to be better through the close lamination between the left box body and the right box body, improves the operation safety of the equipment, leads the whole operation safety and the operation stability of the equipment to be better improved through the same shape and size between the left box body and the right box body, leads the whole installation stability and the safety of the equipment to be better improved through the same shape and size between the main transmission shaft hole and the auxiliary transmission shaft hole, leads the whole connection safety and the stability of the equipment to be more comprehensively improved through the coincidence of the central axes between the main installation screw hole and the auxiliary installation screw hole, leads the whole fixing effect and the fixing stability of the equipment to be better improved through the close lamination between the main first installation seat and the auxiliary second installation seat, the safety of the whole structure of the equipment is better improved by the coincidence of the central axes between the main reserved hole and the auxiliary reserved hole.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

FIG. 1 is a schematic front view of the present invention;

FIG. 2 is a schematic structural view of a left box body of the present invention;

FIG. 3 is a sectional view of the left box structure of the present invention;

FIG. 4 is a schematic structural diagram of a right box according to the present invention;

FIG. 5 is a structural sectional view of the right case of the present invention.

In the figure: 1. a left box body; 101. a main reserved hole; 102. a main first screw hole; 103. a screw hole is mainly installed; 104. a main board; 105. a main fixing screw hole; 106. a main motor screw hole; 107. a main drive shaft hole; 108. a primary first mount; 109. a primary second mount; 2. a right box body; 201. a secondary fixing screw hole; 202. a screw hole of the auxiliary motor; 203. an auxiliary transmission shaft hole; 204. a sub-board; 205. a screw hole is arranged on the auxiliary; 206. a sub first screw hole; 207. a secondary reserved hole; 208. a sub-first mount; 209. and a secondary second mounting seat.

Detailed Description

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 only a part of the embodiments of the present invention, and not all of the embodiments. 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.

Referring to fig. 1-5, a motor assembly mounting box for a lifting apparatus comprises a left box body 1 and a right box body 2, wherein the left box body 1 comprises a main reserved hole 101, a main first screw hole 102, a main mounting screw hole 103, a main board 104, main fixed screw 105, main motor screw 106, main transmission shaft hole 107, main first mount pad 108 and main second mount pad 109, main reserved entrance to a cave 101 has been seted up in the left side of mainboard 104, the main top parallel arrangement who reserves entrance to a cave 101 has main first screw 102, the right side parallel arrangement of main first screw 102 has main installation screw 103, main fixed screw 105 has been seted up to the top of mainboard 104, the below parallel arrangement of main fixed screw 105 has main motor screw 106, main transmission shaft hole 107 has been seted up on the right side of mainboard 104, the main right side parallel arrangement who reserves entrance to a cave 101 has main first mount pad 108, the right side parallel arrangement of main first mount pad 108 has main second mount pad 109.

The right box body 2 is positioned below the left box body 1, the right box body 2 comprises an auxiliary fixing screw hole 201, an auxiliary motor screw hole 202, an auxiliary transmission shaft hole 203, an auxiliary plate 204, an auxiliary installation screw hole 205, an auxiliary first screw hole 206, an auxiliary reserved hole 207, an auxiliary first installation seat 208 and an auxiliary second installation seat 209, the auxiliary fixing screw hole 201 is formed in the left side of the auxiliary plate 204, the auxiliary motor screw hole 202 is formed below the auxiliary fixing screw hole 201 in parallel, the auxiliary transmission shaft hole 203 is formed below the auxiliary motor screw hole 202 in parallel, the auxiliary installation screw hole 205 is formed above the auxiliary plate 204, the auxiliary reserved hole 207 is formed in the right side of the auxiliary plate 204, the auxiliary first screw hole 206 is formed in the left side of the auxiliary reserved hole 207 in parallel, the auxiliary first installation seat 208 is formed in the right side of the auxiliary transmission shaft hole 203 in parallel, and the auxiliary second installation seat 209 is formed in the right side of the auxiliary first installation seat 208 in parallel; during operation, through left box 1, main reserved entrance to a cave 101, mainboard 104, main fixed screw 105, main drive shaft hole 107, right box 2, vice fixed screw 201, the cooperation work between vice drive shaft hole 203 and the subplate 204 lets equipment in-service use, the motor both can install on the left side, also can install on the right, great promotion in-service use convenience, rejected traditional can only install on one side, so convenient to use, and service environment is not restricted.

In this embodiment, a through structure is formed between the main reserved hole 101 and the main board 104, and the shape and size of the main reserved hole 101 and the sub reserved hole 207 are the same; during operation, the stability of the whole structure of the equipment is improved more comprehensively through the penetrating structure between the main reserved hole 101 and the main board 104.

In the embodiment, the left box body 1 and the right box body 2 are tightly attached, and the central axes of the left box body 1 and the right box body 2 are overlapped; during operation, the whole structure laminating effect of the equipment is better through the close lamination between the left box body 1 and the right box body 2, and the operation safety of the equipment is improved.

In this embodiment, the left casing 1 and the right casing 2 have the same shape and size, and a penetrating structure is formed between the left casing 1 and the main transmission shaft hole 107; during operation, the overall operation safety and the operation stability of the equipment are better improved through the same shape and size between the left box body 1 and the right box body 2.

In this embodiment, the main transmission shaft hole 107 and the auxiliary transmission shaft hole 203 have the same shape and size, and the central axes between the main transmission shaft hole 107 and the auxiliary transmission shaft hole 203 are overlapped; during operation, the overall installation stability and safety of the equipment are improved better due to the fact that the main transmission shaft hole 107 and the auxiliary transmission shaft hole 203 are the same in shape and size.

In this embodiment, the central axes of the main mounting screw hole 103 and the auxiliary mounting screw hole 205 are coincident, and the main mounting screw hole 103 and the auxiliary mounting screw hole 205 have the same shape and size; during operation, the central axis between the main mounting screw hole 103 and the auxiliary mounting screw hole 205 is coincident, so that the overall connection safety and stability of the equipment are improved more comprehensively.

In this embodiment, the main first mounting seat 108 and the sub second mounting seat 209 are tightly attached to each other, and the main first mounting seat 108 and the sub second mounting seat 209 have the same shape and size; during operation, the overall fixing effect and the fixing stability of the device are better improved by the close fit between the main first mounting seat 108 and the auxiliary second mounting seat 209.

In this embodiment, the central axes of the main reserved hole 101 and the auxiliary reserved hole 207 are coincident, and a through structure is formed between the auxiliary plate 204 and the auxiliary reserved hole 207; during operation, the central axis between the main reserved hole 101 and the auxiliary reserved hole 207 is coincident, so that the safety of the whole structure of the equipment is improved better.

According to the working principle, the box body is divided into a left box body 1 and a right box body 2 which are symmetrical, a main transmission shaft hole 107 and an auxiliary transmission shaft hole 203 which are larger in the middle position of the box body are used for allowing a motor transmission shaft to penetrate through, and small holes around the punched holes are used as a main motor screw hole 106 and an auxiliary motor screw hole 202 for fixing the motor.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed.