CN211338474U - Counterweight housing for heavy-load goods elevator - Google Patents

Abstract

The utility model discloses a heavy load goods lift is with counterweight frame, install on counterweight upper beam to heavy diversion sheave subassembly, be connected through the upper beam connecting plate counterweight upper beam and found the roof beam subassembly, it includes that two long standing beams and two short standing beams stand to stand the roof beam subassembly, four stand the roof beam upper and lower parts respectively through violently drawing board subassembly and underbeam connecting plate fixed connection, wherein, two long standing beam symmetries are installed in both ends about violently drawing the board subassembly, two short standing beam subassembly intervals are installed on violently drawing the board subassembly between two long standing beams, two long standing beams and two short standing beam subassemblies evenly distributed on violently drawing the board subassembly, be provided with on the standing beam subassembly to the pouring weight fixed plate, violently drawing the board subassembly, form three rows installation cavity A between standing beam subassembly and the underbeam connecting plate, install in installation cavity A through the pouring weight fixed plate to the pouring weight. The utility model discloses simple structure, manufacturing convenience, reliable and stable, it is less to top height, pit degree of depth requirement, are applicable to 12000kg heavy load goods lift and use.

Description

Counterweight housing for heavy-load goods elevator

Technical Field

The utility model belongs to the technical field of the elevator, concretely relates to heavy load goods lift is with heavily putting up.

Background

The existing elevator usually adopts 1 or 2 rows of counterweight housings for heavy irons, is only suitable for elevators with rated load capacity not greater than 5000kg, and when the rated load capacity reaches over 12000kg, the requirement on the heavy irons reaches over 10000kg, the strength of the conventional counterweight housings cannot meet the requirement, and the 1 or 2 rows of counterweight structures have great requirements on the height of a top layer and the depth of a pit, so that the conventional counterweight housings cannot be suitable for heavy goods elevators with rated load capacity of over 12000 kg.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that to above-mentioned prior art not enough, provide a heavy load goods lift is with heavily putting up, should heavily putting up simple structure, manufacturing convenience, through adopting 3 rows to heavy block structure, to the top height, the pit degree of depth requirement is less, to heavily putting up intensity height, reliable and stable, be applicable to 12000kg heavy load goods lift and use.

In order to realize the technical purpose, the utility model discloses the technical scheme who takes does: a counterweight frame for a heavy-load goods elevator comprises a counterweight diverting pulley assembly, a counterweight upper beam, an upper beam reinforcing plate, a vertical beam assembly, an upper beam connecting plate, a transverse pull plate assembly, a lower beam connecting plate and a counterweight block fixing plate, wherein the counterweight diverting pulley assembly is arranged on the counterweight upper beam, the counterweight upper beam is connected with the vertical beam assembly through the upper beam connecting plate, the upper beam reinforcing plate is arranged at the middle part of the counterweight upper beam, the vertical beam assembly comprises two long vertical beams and two short vertical beams, the upper parts and the lower parts of the four vertical beams are respectively and fixedly connected through the transverse pull plate assembly and the lower beam connecting plate, wherein the two long vertical beams are symmetrically arranged at the left end and the right end of the transverse pull plate assembly, the two short vertical beam assemblies are arranged on the transverse pull plate assembly between the two long vertical beams at intervals, the two long vertical beams and the two short vertical beam assemblies are uniformly distributed on the transverse pull plate assembly, the counterweight block is arranged on the vertical beam assembly, three rows of mounting cavities A, the counterweight block is arranged in the mounting cavity A through a counterweight block fixing plate.

Further, heavy diverting pulley subassembly includes two rope sheaves, and two rope sheaves are installed in heavy upper beam bottom, and symmetric distribution is in the middle part both sides of heavy upper beam, and sets up in horizontal pull plate subassembly top.

Furthermore, the short vertical beam assembly is formed by symmetrically and rigidly connecting two short vertical beams, the two short vertical beam assemblies are respectively arranged below the two rope wheels, and the transverse pull plate assembly, the two long vertical beams, the two short vertical beam assemblies and the lower beam connecting plate form three rows of mounting cavities A with the same cavity size.

Furthermore, the transverse pull plate assembly is horizontally fixed at the upper part of the vertical beam assembly, the two long vertical beams and the two short vertical beam assemblies are fixedly connected, and the two long vertical beams are vertically fixed on the counterweight upper beam transverse pull plate assembly through the upper beam connecting plate through bolts.

Furthermore, the counterweight fixing plate is fixedly connected with the two long vertical beams and the four short vertical beams through a press guide plate matched M12 bolt-nut assembly.

Further, underbeam connecting plate horizontal fixed connection is in the lower extreme of founding the roof beam subassembly, installation cavity A separates the underbeam connecting plate into left underbeam section, well underbeam section and right underbeam section, the middle part below of left underbeam section, well underbeam section and right underbeam section is installed respectively and is adjusted the seat.

Furthermore, the counterweight upper beam comprises upper beams, upper beam reinforcing plates are fixed to the middle parts of the two upper beams through bolts, guide shoe plates are symmetrically installed on the left end and the right end of the two upper beams, each guide shoe plate comprises an upper guide shoe plate and a lower guide shoe plate, the two upper guide shoe plates are symmetrically installed at the left end and the right end of the upper end face of the upper beam, and the two lower guide shoe plates are respectively symmetrically installed on the lower end faces of the upper beams.

Furthermore, the counterweight upper beam, the vertical beam assembly and the lower beam connecting plate are all made of national standard No. 20 channel steel.

The utility model discloses following beneficial effect has: the utility model provides a heavy load goods lift is with heavily putting up, wherein form three rows of installation cavity A that the cavity size is the same between horizontal pull plate subassembly, upright beam subassembly and the underbeam connecting plate, 3 rows are installed respectively in 3 installation cavity A through to the pouring weight fixed plate, this heavy load goods lift adopts 3 rows to heavily putting up the structure, the requirement to the top height and pit depth greatly reduces with heavy, simultaneously, to heavy upper beam, upright beam subassembly and underbeam connecting plate all adopt national standard No. 20 channel-section steel to make, it is convenient to make, intensity is high; the upper beam reinforcing plate is used for the heavy upper beam to further reinforce the stress concentration part, the upper part and the lower part of the vertical beam assembly are fixedly connected with the lower beam connecting plate through the transverse pull plate assembly respectively, and the vertical beam assembly is fixed on the heavy upper beam and the transverse pull plate assembly through the upper beam connecting plate.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

fig. 2 is a side schematic view of the present invention;

FIG. 3 is a schematic view of the structure of FIG. 1A;

fig. 4 is a sectional view B-B of fig. 1.

Wherein the reference numerals are: the counterweight sheave assembly comprises a counterweight sheave assembly 1, a counterweight upper beam 2, an upper beam reinforcing plate 3, a vertical beam assembly 4, a long vertical beam 4-1, a short vertical beam assembly 4-2, an upper beam connecting plate 5, a transverse pull plate assembly 6, a lower beam connecting plate 7, a counterweight block fixing plate 8, a pressure guide plate 9, an adjusting seat 10, a guide shoe plate 11 and a dustproof cap 12.

Detailed Description

Embodiments of the present invention are described in further detail below with reference to the accompanying drawings.

As shown in fig. 1-4, a counterweight frame for a heavy-duty freight elevator comprises a counterweight diversion sheave assembly 1, a counterweight upper beam 2, an upper beam reinforcing plate 3, a vertical beam assembly 4, an upper beam connecting plate 5, a transverse pulling plate assembly 6, a lower beam connecting plate 7 and a counterweight block fixing plate 8, wherein the counterweight diversion sheave assembly 1 is arranged on the counterweight upper beam 2, the upper beam reinforcing plate 3 is arranged in the middle of the counterweight upper beam 2, the counterweight upper beam 2 is connected with the vertical beam assembly 4 through the upper beam connecting plate 5, the vertical beam assembly 4 comprises two long vertical beams 4-1 and two short vertical beam assemblies 4-2, the upper and lower parts of the four vertical beams are respectively and fixedly connected through the transverse pulling plate assembly 6 and the lower beam connecting plate 7, wherein the two long vertical beams 4-1 are symmetrically arranged at the left and right ends of the transverse pulling plate assembly 6, the two short vertical beam assemblies 4-2 are arranged on the transverse pulling plate assembly 6 between the two long vertical beams 4-1 at, two vertical beams evenly distributed on violently drawing board subassembly 6, are provided with on the vertical beam subassembly 4 to pouring weight fixed plate 8, violently draw board subassembly 6, erect and form three rows installation cavity A between roof beam subassembly 4 and the underbeam connecting plate 7, install in installation cavity A through to pouring weight fixed plate 8 to the pouring weight, but 3 rows set up the requirement of greatly reduced to the top layer height and pit depth.

It includes two rope sheaves to show, and two rope sheaves are installed in 2 bottoms on the heavy upper beam to heavy diverting pulley subassembly 1, and symmetric distribution is in the middle part both sides on the heavy upper beam 2, and sets up in the 6 tops of violently drawing the board subassembly.

Furthermore, the upper beam connecting plates 5 are vertically and downwards fixed at the left end and the right end of the counterweight upper beam 2, the transverse pull plate assembly 6 is horizontally and fixedly connected to the lower ends of the two upper beam connecting plates 5, and the lower beam connecting plate 7 is horizontally and fixedly connected to the lower end of the vertical beam assembly 4.

Further, the short vertical beam assembly 4-2 is formed by symmetrically and rigidly connecting two short vertical beams, the two short vertical beam assemblies 4-2 are respectively arranged below the two rope wheels, and the transverse pulling plate assembly 6, the two long vertical beams 4-1, the two short vertical beam assemblies 4-2 and the lower beam connecting plate 7 form three rows of mounting cavities A with the same cavity size.

As shown in fig. 3, the counterweight fixing plate 8 is tightly connected with the two long vertical beams 4-1 and the four short vertical beams through the press guide plate 9 matched with the M12 bolt-nut assembly.

As shown in fig. 1, the transverse pull plate assembly 6 is horizontally fixed on the upper part of the vertical beam assembly 4, two long vertical beams 4-1 and two short vertical beam assemblies 4-2 are fixedly connected, and the two long vertical beams 4-1 are vertically fixed on the counterweight upper beam 2 and the transverse pull plate assembly 6 through bolts by the upper beam connecting plate 5, so that the firmness is enhanced.

As shown in fig. 1 and 2, the lower beam connecting plate 7 is horizontally and fixedly connected to the lower end of the vertical beam assembly 4, the lower beam connecting plate 7 is divided into a left lower beam section, a middle lower beam section and a right lower beam section by the mounting cavity a, and the adjusting seats 10 are respectively mounted below the middle portions of the left lower beam section, the middle lower beam section and the right lower beam section.

As shown in fig. 2, the counterweight upper beam 2 comprises an upper beam 1-1, an upper beam reinforcing plate 3 is fixed in the middle of the two upper beams 1-1 through bolts to further reinforce the stress concentration part, guide shoe plates 11 are symmetrically installed at the left end and the right end of the two upper beams 1-1, each guide shoe plate 11 comprises an upper guide shoe plate and a lower guide shoe plate, the two upper guide shoe plates are symmetrically installed at the left end and the right end of the upper end face of the upper beam 1-1, the two lower guide shoe plates are respectively symmetrically installed at the lower end faces of the upper beams 1-1, and the upper beam connecting plate 5 is detachably connected with the two upper beams 1-1 through bolts.

As shown in fig. 2, a dust cap 12 is also provided above the counterweight upper beam 2.

In the embodiment, the counterweight upper beam 2, the vertical beam assembly 4 and the lower beam connecting plate 7 are made of national standard No. 20 channel steel, and are convenient to manufacture and high in strength.

This embodiment is through in the last lower part of found roof beam subassembly 4 respectively fixed connection violently draw board assembly 6 and underbeam connecting plate 7, found roof beam subassembly 4 through the upper beam connecting plate 5 fix on to heavy roof beam 2 and violently draw board assembly 6, at the fixed upper beam gusset plate 3 in 2 middle parts of heavy roof beam to concentrate the position at the atress and further consolidate, can improve the bulk strength and the rigidity of heavily loaded goods lift with heavily putting up, reliable and stable is applicable to 12000kg heavy load goods lift's use.

Above only the utility model discloses an it is preferred embodiment, the utility model discloses a scope of protection not only limits in above-mentioned embodiment, and the all belongs to the utility model discloses a technical scheme under the thinking all belongs to the utility model discloses a scope of protection. It should be noted that, for those skilled in the art, a plurality of modifications and decorations without departing from the principle of the present invention should be considered as the protection scope of the present invention.

Claims (8)

1. A counterweight frame for a heavy-duty freight elevator comprises a counterweight diversion sheave assembly (1), a counterweight upper beam (2), an upper beam reinforcing plate (3), a vertical beam assembly (4), an upper beam connecting plate (5), a transverse pull plate assembly (6), a lower beam connecting plate (7) and a counterweight block fixing plate (8), and is characterized in that the counterweight diversion sheave assembly (1) is installed on the counterweight upper beam (2), the upper beam reinforcing plate (3) is installed in the middle of the counterweight upper beam (2), the counterweight upper beam (2) is connected with the vertical beam assembly (4) through the upper beam connecting plate (5), the vertical beam assembly (4) comprises two long vertical beams (4-1) and two short vertical beam assemblies (4-2), the upper and lower parts of the four vertical beams are fixedly connected with the lower beam connecting plate (7) through the transverse pull plate assembly (6), wherein the two long vertical beams (4-1) are symmetrically installed at the left end and the right end of the transverse pull plate assembly (6), two short vertical beam assemblies (4-2) are installed on a transverse pull plate assembly (6) between two long vertical beams (4-1) at intervals, the two long vertical beams (4-1) and the two short vertical beam assemblies (4-2) are uniformly distributed on the transverse pull plate assembly (6), a counterweight block fixing plate (8) is arranged on each vertical beam assembly (4), three rows of installation cavities A are formed among the transverse pull plate assembly (6), the vertical beam assemblies (4) and a lower beam connecting plate (7), and the counterweight blocks are installed in the installation cavities A through the counterweight block fixing plates (8).

2. The counterweight housing for heavy-duty freight elevator according to claim 1, characterized in that: the counterweight diversion sheave assembly (1) comprises two sheaves, the two sheaves are mounted at the bottom of the counterweight upper beam (2), symmetrically distributed on two sides of the middle of the counterweight upper beam (2) and arranged above the transverse pull plate assembly (6).

3. The counterweight housing for heavy-duty freight elevator according to claim 2, characterized in that: the short vertical beam assembly (4-2) is formed by symmetrically and rigidly connecting two short vertical beams, the two short vertical beam assemblies (4-2) are respectively arranged below the two rope wheels, and the transverse pull plate assembly (6), the two long vertical beams (4-1), the two short vertical beam assemblies (4-2) and the lower beam connecting plate (7) form three rows of mounting cavities A with the same cavity size.

4. The counterweight housing for heavy-duty freight elevator according to claim 3, characterized in that: the transverse pull plate assembly (6) is horizontally fixed on the upper portion of the vertical beam assembly (4), the two long vertical beams (4-1) and the two short vertical beam assemblies (4-2) are fixedly connected, and the upper beam connecting plate (5) vertically fixes the two long vertical beams (4-1) on the counterweight upper beam (2) and the transverse pull plate assembly (6) through bolts.

5. The counterweight housing for heavy-duty freight elevator according to claim 4, characterized in that: the counterweight block fixing plate (8) is fixedly connected with two long vertical beams (4-1) and four short vertical beams through a pressure guide plate (9) in a matched M12 bolt-nut assembly mode.

6. The counterweight housing for heavy-duty freight elevator according to claim 5, characterized in that: underbeam connecting plate (7) horizontal fixed connection is in the lower extreme of founding roof beam subassembly (4), left underbeam section, well underbeam section and right underbeam section are separated into with underbeam connecting plate (7) to installation cavity A, adjust seat (10) are installed respectively to the middle part below of left underbeam section, well underbeam section and right underbeam section.

7. The counterweight housing for heavy-duty freight elevator according to claim 6, characterized in that: the counterweight upper beam (2) comprises upper beams (1-1), upper beam reinforcing plates (3) are fixed to the middle parts of the two upper beams (1-1) through bolts, guide shoe plates (11) are symmetrically installed on the left end and the right end of the two upper beams (1-1), each guide shoe plate (11) comprises an upper guide shoe plate and a lower guide shoe plate, the two upper guide shoe plates are symmetrically installed at the left end and the right end of the upper end face of the upper beam (1-1), and the two lower guide shoe plates are respectively symmetrically installed on the lower end faces of the upper beams (1-1).

8. The counterweight housing for heavy-duty freight elevator according to claim 7, characterized in that: the counterweight upper beam (2), the vertical beam assembly (4) and the lower beam connecting plate (7) are all made of national standard No. 20 channel steel.

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