CN110571467A - Vertical formation cabinet - Google Patents

Abstract

The invention discloses a vertical formed cabinet, which comprises a cabinet body, a layer plate mechanism and a counterweight mechanism, wherein the layer plate mechanism is erected in the cabinet body layer by layer; the counterweight mechanism comprises a hanging wheel assembly, a limiting guide assembly arranged below the hanging wheel assembly and a counterweight part in sliding fit with the limiting guide assembly; the weight piece is connected with the corresponding laminate mechanism through a traction rope wound on the hanging wheel assembly. With this structural design's vertical cabinet that becomes, through the setting of spacing guide assembly in the counter weight mechanism, can make the weight at the ascending or decline in-process, more steady, and can effectively avoid the mutual collision between the adjacent weight or the winding between the adjacent haulage rope, and then effectively promoted the vertical reliability that becomes the cabinet.

Description

Vertical formation cabinet

Technical Field

The invention relates to the technical field of chemical synthesis cabinets, in particular to a vertical chemical synthesis cabinet.

background

In the prior art, formation equipment for detecting the battery core is mostly arranged on a laminate when the battery core is detected, and then the laminate is stacked layer by layer so as to detect the battery core on the laminate, in the process, because the stress between the laminates is uneven, the battery cell on the laminate below bears larger pressure from the upper laminate, the battery cell on the laminate below is easy to be extruded and deformed, and the normal test of the battery cell is influenced, although the dead weight of the laminate can be offset by arranging the corresponding weight part corresponding to the laminate, the weight mechanism, because the structure is too simple, lacks effectual spacing between a plurality of weight members, causes the weight member swing very easily, causes the haulage rope on the adjacent weight member to take place the winding then to make the structural stability greatly reduced who becomes the cabinet.

Disclosure of Invention

The invention aims to provide a vertical chemical cabinet which is stable and reliable in structure, can enable a counterweight to smoothly move up and down and effectively prevent troubles caused by the swinging of the counterweight.

In order to achieve the purpose, the invention adopts the following technical scheme:

A vertical chemical cabinet, comprising:

a cabinet body;

The layer plate mechanism is erected in the cabinet body layer by layer;

A counterweight mechanism; the counterweight mechanism is erected on the cabinet body and used for offsetting the dead weight of the laminate mechanism, wherein the counterweight mechanism comprises a hanging wheel assembly, a limiting guide assembly arranged below the hanging wheel assembly and a counterweight part in sliding fit with the limiting guide assembly; the weight piece is connected with the corresponding laminate mechanism through a traction rope wound on the hanging wheel assembly.

wherein, spacing direction subassembly include with the spacing frame of cabinet body fastening and follow the stopper that spacing length direction set up, the stopper runs through and is provided with a plurality of spacing holes, the counterweight with spacing hole sliding fit.

The limiting frame is provided with a sliding rail along the length direction, and the limiting block is connected with the sliding rail in a sliding mode.

The lower part of the sliding rail is provided with a positioning rod along the length direction of the limiting frame, the positioning rod is provided with separation blades at intervals along the length direction, and the separation blades are positioned between the adjacent counterweight pieces.

The hanging wheel assembly comprises a wheel shaft and a plurality of hanging wheels pivoted along the length direction of the wheel shaft, and the hanging wheels are respectively arranged corresponding to the balance weights below.

The laminated plate mechanism comprises a laminated plate, laminated plate hanging tables arranged on two opposite sides of the laminated plate, graduated scales arranged in the length direction of the laminated plate hanging tables, and hooks in sliding fit with the laminated plate hanging tables, and the hooks are connected with the traction ropes.

The end part of the layer plate hanging table is provided with a chain groove, and adjacent chain grooves of adjacent layer plates are hinged through a chain sheet; the laminated plate positioned at the uppermost part of the multilayer laminated plate mechanism is connected with the top of the cabinet body, and the laminated plate positioned at the lowermost part of the multilayer laminated plate mechanism is connected with the bottom of the cabinet body.

the cabinet body comprises a cabinet frame, laminate hanging table mounting shafts vertically erected on two opposite sides of the cabinet frame, screw rods vertically arranged on two opposite sides of the cabinet frame, a buffer frame arranged at the bottom of the cabinet frame, and a driving mechanism arranged below the buffer frame and used for driving the screw rods to rotate; the lead screw penetrates through the layer plate hanging table and is in threaded connection with the layer plate hanging table.

The two opposite sides of the cabinet frame are vertically provided with positioning shafts for erecting the limiting guide assemblies, and the two ends of each limiting guide assembly are fastened with the corresponding positioning shafts.

The insulation layer is laid on the bearing surface of the laminate, the pressing plate is arranged on the insulation layer in a laminated mode, and the pressing portion of the pressing plate is detachably connected with the laminate through the positioning adsorption assembly.

The invention has the beneficial effects that: the invention provides a vertical formed cabinet, which comprises a cabinet body, a layer plate mechanism and a counterweight mechanism, wherein the layer plate mechanism is erected in the cabinet body layer by layer, and the counterweight mechanism is erected in the cabinet body and is used for offsetting the dead weight of the layer plate mechanism; the counterweight mechanism comprises a hanging wheel assembly, a limiting guide assembly arranged below the hanging wheel assembly and a counterweight part in sliding fit with the limiting guide assembly; the weight piece is connected with the corresponding laminate mechanism through a traction rope wound on the hanging wheel assembly. With this structural design's vertical cabinet that becomes, through the setting of spacing guide assembly in the counter weight mechanism, can make the weight at the ascending or decline in-process, more steady, and can effectively avoid the mutual collision between the adjacent weight or the winding between the adjacent haulage rope, and then effectively promoted the vertical reliability that becomes the cabinet.

Drawings

Fig. 1 is an isometric view from a first perspective of a vertical form of the cabinet of the present invention.

Fig. 2 is an isometric view of the layer plate mechanism of fig. 1.

Fig. 3 is an isometric view of the cabinet and counterweight mechanism of fig. 1 after engagement.

fig. 4 is an isometric view of the curb guide assembly of fig. 1.

Fig. 5 is an isometric view of the hanger assembly of fig. 1.

Figure 6 is an isometric view from a second perspective of a vertical form of the cabinet of the present invention.

Fig. 7 is a partially enlarged view of a portion a in fig. 6.

Detailed Description

The technical scheme of the invention is further explained by the specific implementation mode in combination with the attached drawings.

As shown in fig. 1 to 7, the vertical cabinet includes a cabinet body 1, a layer plate mechanism 2, and a counterweight mechanism 3; the laminated plate mechanism 2 is arranged into a plurality of layers, the layers are stacked and additionally arranged in the cabinet body 1, the two opposite outer side walls of the cabinet body 1 are respectively provided with a counterweight mechanism 3, the counterweight mechanism 3 comprises a hanging wheel assembly 31 erected on the side wall of the cabinet body 1, a limiting guide assembly 32 arranged below the hanging wheel assembly 31 and fastened with the side wall of the cabinet body 1 at intervals, a counterweight 33 arranged on the limiting guide assembly 32 in a penetrating mode side by side and a counterweight block 34 fastened at the lower end of the counterweight 33, and the upper end of the counterweight 33 is connected with the corresponding laminated plate mechanism 2 through a traction rope wound on the hanging wheel assembly 31. Preferably, the weight member 33 in this embodiment is configured as a guide rod with a square cross section, so that the degree of freedom of the weight member 33 and the counterweight 34 is effectively limited after the guide rod is matched with the limit guide assembly 32. As a further illustration, the weight block 34 in this embodiment can be flexibly added according to the weight demand, so as to achieve a flexible adjustment function. And the added weight 34 is screwed with the lower end of the weight member 33 in order to be integrated with the weight member 33.

Adopt above-mentioned structural design, can be through the counter weight mechanism 3's of being connected with every plywood mechanism 2 setting, effectively offset the dead weight that corresponds plywood mechanism 2, make layer upon layer each other not extrude between the plywood mechanism 2 that sets up that stacks then, the atress is balanced each other.

In the above embodiment, since the plurality of weight members 33 fastened to the corresponding weight blocks 34 are all inserted in the limiting guide assembly 32 side by side, the weight blocks 34 can only move up and down along with the weight members 33, thereby effectively avoiding the occurrence of abnormal problems such as random deflection, mutual collision between adjacent weight members, winding of the traction rope and the like due to unstable positioning of the weight blocks 34 caused by directly hanging the weight blocks 34 at one end of the traction rope in the related art.

In a more specific embodiment, as shown in fig. 1 and fig. 2, the laminate mechanism 2 includes a laminate 21, a laminate hanging table 22 disposed on two opposite sides of the laminate 21, a scale 23 disposed along a length direction of the laminate hanging table 22, and a hook 24 slidably engaged with the laminate hanging table 22, where the hook 24 is connected to an end of the traction rope away from the counterweight 33. This embodiment is because 2 stacks layer upon layer of plywood mechanism are placed, in order to make interval order arrange before corresponding to the haulage rope on each plywood mechanism 2, when couple 24 is connected with the haulage rope, can hang the scale on the bench scale 23 according to the curb plate in advance, and the mounted position of 24 is got in touch in quantitative regulation, later fixes it to this effectively avoids mixed and disorderly setting between the haulage rope. The haulage rope that sets up like this mode, later the setting of the spacing direction subassembly 32 of deuterogamying, with very big promotion counter weight mechanism 3's stability, effectively avoid adjacent haulage rope intertwine, or the haulage rope breaks away from the hanging wheel race of spacing direction subassembly 32.

Further, as shown in fig. 2 and fig. 3, in this embodiment, the cabinet 1 includes a cabinet frame (not shown), a laminate hanging platform installation shaft 11 vertically erected on two opposite sides of the cabinet frame, a screw rod 12 vertically erected on two opposite sides of the cabinet frame, a buffer frame 13 arranged at the bottom of the cabinet frame, and a driving mechanism 14 arranged below the buffer frame 13 and used for driving the screw rod 12 to rotate; the lead screw 12 is worn to locate the plywood hangs platform 22 and with platform 22 threaded connection is hung to the plywood, for the convenience of the erections of plywood mechanism 2, in this embodiment, the silk braid with lead screw 12 threaded connection is buried underground respectively at the both ends that platform 22 is hung to the two-layer board, actuating mechanism 14 in this embodiment, can set up to be used for driving lead screw 12 pivoted motor and gearbox, when plywood mechanism 2 installs, the rotation of accessible lead screw 12, with its successive layer downstream, and through the setting of buffer bracket 13, to certain buffering is played to plywood mechanism 2 of lower floor, when avoiding plywood mechanism 2 to hang platform installation axle 11 downstream along the plywood, because of the damage that the effect of gravity between each other caused.

Further, as shown in fig. 1, fig. 3 and fig. 4, in order to facilitate installation of the limit guide assembly 32, in this embodiment, positioning shafts 15 for erecting the limit guide assembly 32 are vertically arranged on two opposite sides of the cabinet frame, two ends of the limit guide assembly 32 are fastened to the corresponding positioning shafts 15, and further, the limit guide assembly 32 includes a limit frame 321 fastened to the positioning shafts 15, slide rails 322 arranged in parallel along a length direction of the limit frame 321 at intervals, limit blocks 323 arranged in parallel along a length direction of the slide rails 322, a weight member 33 in sliding fit with the limit blocks 323, and a positioning rod 324 arranged below the slide rails at intervals; the positioning rod 324 is sleeved with a baffle 325 in parallel at intervals along the length direction; stopper 323 has a plurality of spacing holes 3231 along the length direction equipartition, weight 33 wears to locate spacing hole 3231 and with spacing hole 3231 sliding fit, during the installation, can insert weight 33 in the spacing hole 3231 of stopper 323 in advance, later slide in slide rail 322 with stopper 323 again, this structural design, not only make things convenient for the installation of weight 33, but also can effectively prescribe a limit to the shift position of weight 33, simultaneously, can also pass through the setting of separation blade 325 on locating lever 324, the further collision that produces during the beat between the adjacent guide arm that prevents, thereby effectively avoided the random swing of weight 33 rather than the fastening, very big promotion counter weight mechanism 3 stability in the motion process.

Referring to fig. 1 and 5, in this embodiment, the hanging wheel assembly 31 includes a wheel shaft 311 erected side by side, and hanging wheels 312 distributed on the wheel shaft 311 at intervals in parallel, and a plurality of the hanging wheels 312 are disposed corresponding to a plurality of the weight members 33 below.

in order to increase the stability of the layer-by-layer laminated plate mechanisms 2, referring to fig. 1, 6 and 7, in this embodiment, chain grooves 25 are provided at two ends of the layer-by-layer hanging table 22, adjacent chain grooves 25 are hinged through chain pieces 4, the layer plate 21 positioned at the uppermost of the layer-by-layer laminated plate mechanisms 2 is connected to the top of the cabinet frame, and the layer plate 21 positioned at the lowermost of the layer-by-layer laminated plate mechanisms 2 is connected to the bottom of the cabinet frame.

Further, as shown in fig. 2, in this embodiment, an insulating layer is laid on the upper surface of the laminate 21, so as to facilitate replacement of the insulating layer and enable the insulating layer to be tightly attached to the laminate 21, a positioning adsorption component is arranged on the bearing surface of the laminate 21, and a pressing plate (not shown) is adsorbed by the positioning adsorption component, and a pressing strip for tightly attaching the insulating layer to the bearing surface of the laminate 21 is arranged on the surface of the pressing plate. Furthermore, the positioning and adsorbing assembly is a positioning pin 211 and a magnet 212 embedded in the bearing surface of the layer plate 21, when the pressing plate is matched with the layer plate 21, the pressing plate and the layer plate 21 can be quickly pressed under the action of the positioning pin 211 and the magnet 212, so that a plurality of troubles caused by locking screws and the like in the related art are eliminated, and in addition, the insulating layer can be firmly pressed through pressing strips distributed on the layer plate 21, and the warping is avoided.

Further, as shown in fig. 2, in order to facilitate the pushing and pulling of the aging plate (not shown in the figure), a limiting guide mechanism is disposed on the bearing surface of the laminate 21, and the limiting guide mechanism includes limiting guide rails 26 symmetrically disposed on two opposite sides of the bearing surface of the laminate 21, so that the aging plate disposed on the laminate 21 can be conveniently pushed and pulled out, and further the installation of the battery cell is facilitated.

The technical principle of the present invention is described above in connection with specific embodiments. The description is made for the purpose of illustrating the principles of the invention and should not be construed in any way as limiting the scope of the invention. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present invention without inventive effort, which would fall within the scope of the present invention.

Claims (10)

1. A vertical chemical cabinet, comprising:

A cabinet body;

The layer plate mechanism is erected in the cabinet body layer by layer;

A counterweight mechanism; the counterweight mechanism is erected on the cabinet body and used for offsetting the dead weight of the laminate mechanism, wherein the counterweight mechanism comprises a hanging wheel assembly, a limiting guide assembly arranged below the hanging wheel assembly and a counterweight part in sliding fit with the limiting guide assembly; the weight piece is connected with the corresponding laminate mechanism through a traction rope wound on the hanging wheel assembly.

2. A vertical formed cabinet according to claim 1, wherein: the limiting guide assembly comprises a limiting frame fastened with the cabinet body and a limiting block arranged along the length direction of the limiting frame, a plurality of limiting holes are formed in the limiting block in a penetrating mode, and the weight part is in sliding fit with the limiting holes.

3. a vertical formed cabinet according to claim 2, wherein: the limiting frame is provided with a sliding rail along the length direction in an erected mode, and the limiting block is connected with the sliding rail in a sliding mode.

4. A vertical formed cabinet according to claim 3, wherein: the lower part of the slide rail is provided with a positioning rod along the length direction of the limiting frame, the positioning rod is provided with separation blades at intervals along the length direction, and the separation blades are positioned between the adjacent counterweight pieces.

5. A vertical formed cabinet according to claim 1, wherein: the hanging wheel assembly comprises a wheel shaft and a plurality of hanging wheels pivoted along the length direction of the wheel shaft, and the hanging wheels are respectively arranged corresponding to the balance weights below.

6. A vertical formed cabinet according to claim 1, wherein: the plywood mechanism comprises a plywood, plywood hanging tables arranged on two opposite sides of the plywood, graduated scales arranged in the length direction of the plywood hanging tables, and hooks in sliding fit with the plywood hanging tables, and the hooks are connected with the traction ropes.

7. A vertical formed cabinet according to claim 6, wherein: chain grooves are formed in the end portions of the laminate hanging tables, and adjacent chain grooves of adjacent laminates are hinged through chain sheets; the laminated plate positioned at the uppermost part of the multilayer laminated plate mechanism is connected with the top of the cabinet body, and the laminated plate positioned at the lowermost part of the multilayer laminated plate mechanism is connected with the bottom of the cabinet body.

8. A vertical formed cabinet according to claim 6, wherein: the cabinet body comprises a cabinet frame, laminate hanging table mounting shafts vertically erected on two opposite sides of the cabinet frame, screw rods vertically arranged on two opposite sides of the cabinet frame, a buffer frame arranged at the bottom of the cabinet frame, and a driving mechanism arranged below the buffer frame and used for driving the screw rods to rotate; the lead screw penetrates through the layer plate hanging table and is in threaded connection with the layer plate hanging table.

9. A vertical formed cabinet according to claim 8, wherein: the vertical location axle that is used for erectting of the relative both sides of tank bracket spacing direction subassembly, the both ends of spacing direction subassembly with correspond the location axle fastening.

10. A vertical formed cabinet according to claim 6, wherein: an insulating layer is laid on the bearing surface of the laminate, a pressing plate is laminated on the insulating layer, and the pressing part of the pressing plate is detachably connected with the laminate through a positioning adsorption assembly.