CN222829961U

CN222829961U - A varnishing device for pump casing production

Info

Publication number: CN222829961U
Application number: CN202420843727.5U
Authority: CN
Inventors: 黄一宇; 张建新; 蔡磊; 王峰生
Original assignee: Wujiang Dade Machinery Co ltd
Current assignee: Wujiang Dade Machinery Co ltd
Priority date: 2024-04-23
Filing date: 2024-04-23
Publication date: 2025-05-06
Anticipated expiration: 2034-04-23

Abstract

The utility model discloses a paint dipping device for pump shell production, which comprises a paint dipping box, wherein a protective cover is arranged at the top end of the paint dipping box, a servo motor is arranged at the bottom end of the back side of the protective cover, a screw rod is arranged at the top end of the servo motor, two ends of the screw rod are connected with the back side of the protective cover through support bearings, a lifting block is sleeved outside the screw rod, and the front side of the lifting block extends into the protective cover. According to the utility model, the lifting block drives the gear to lift, the meshing effect between the gear and the toothed plate is utilized, and the actions of the movable rod, the eccentric shaft and the like are combined to synchronously realize the up-and-down reciprocating sliding of the lifting sleeve rod outside the supporting rod, so that the synchronous up-and-down vibration action of the pump shell in the lifting process is realized, the superfluous paint attached to the outside of the pump shell is enabled to drop rapidly, the scratch mark generated by the drop of the paint in the subsequent drying process of the pump shell is reduced, and the quality and the efficiency of the paint dipping processing of the pump shell are ensured.

Description

Paint dipping device for pump shell production

Technical Field

The utility model relates to the technical field of pump shell paint dipping, in particular to a paint dipping device for pump shell production.

Background

After the pump shell casting is processed and molded, the pump shell casting is required to be soaked and painted in paint to improve the corrosion resistance and the aesthetic property of the pump shell casting, so that a paint dipping device is required to be matched for use in the processing process;

Chinese patent grant publication No. CN216396873U discloses a pump casing foundry goods production is with dipping paint device, including dipping paint case, sealed lid and basket, the sealed lid is located dipping paint case top, and the basket is located dipping paint incasement upper end, and the lower extreme is fixed with the grid in the basket, and the inside supporting network that is located grid below that is equipped with of basket, supporting network upper end are fixed with a plurality of otter boards of evenly arranging from left to right, and the position that does not paint at this moment pump casing foundry goods lower extreme then with paint contact japanning to there is the japanning blind area in the pump casing foundry goods japanning process, thereby makes the japanning process of pump casing foundry goods more comprehensive. The technical scheme has the following defects that the hot air blower of the device dries the pump shell, but paint drops along the outside of the pump shell after the pump shell moves out of the paint dipping box in the actual production process, and because the device is not provided with a relevant mechanism for quickly removing redundant paint outside the pump shell, the device directly dries the paint at the moment, and the paint easily forms dropping marks outside the pump shell due to slow dropping, thereby affecting the aesthetic property of a finished product, so that a certain improvement space exists.

Disclosure of utility model

The utility model aims to provide a paint dipping device for pump shell production, which aims to solve the problem that the existing paint dipping device proposed in the background art is difficult to quickly remove paint outside a pump shell.

The technical scheme includes that the paint dipping device for pump shell production comprises a paint dipping box, wherein a protective cover is arranged at the top end of the paint dipping box, a servo motor is arranged at the bottom end of the back side of the protective cover, a screw rod is arranged at the top end of the servo motor, two ends of the screw rod are connected with the back side of the protective cover through supporting bearings, a lifting block is sleeved outside the screw rod, the front side of the lifting block extends to the inside of the protective cover, a supporting rod is arranged at the front side of the bottom end of the lifting block, a lifting sleeve rod is sleeved at the bottom end of the supporting rod, triangular prisms are arranged at the bottom end of the lifting sleeve rod, adjusting mechanisms are arranged at the bottom ends of the outer sides of the triangular prisms, supporting blocks are arranged at one ends of the adjusting mechanisms, limiting clamping blocks are arranged at the two sides of the top end of the supporting blocks, synchronous oscillating mechanisms are arranged at the front sections of the two sides of the lifting block, and the synchronous oscillating mechanisms are utilized to drive the lifting sleeve rod to slide up and down along the outer parts of the supporting rod, so that the pump shell can oscillate up and down.

Preferably, the synchronous oscillation mechanism comprises a gear arranged on the outer side of the lifting block, an eccentric shaft is arranged on the outer side of the gear, a movable rod is sleeved on the outer side of the eccentric shaft, a connecting rod is correspondingly arranged on the outer side of the lifting sleeve rod below the gear, a rotating sleeve is sleeved on one end of the outer side of the connecting rod, a low-energy crown of the rotating sleeve is welded with the bottom end of the movable rod, a toothed plate is meshed with the inner side of the gear, and the inner side of the toothed plate is connected with the inner wall of the protective cover.

Preferably, the top end of the movable rod is in rotary connection with the gear through the action of the eccentric shaft, and the bottom end of the movable rod is in rotary connection with the connecting rod through the action of the rotary sleeve.

Preferably, the gear rotates along the toothed plate in a meshing way for four circles, and the length of the toothed plate is equal to one half of the descending movement length of the lifting block.

Preferably, the bottom of bracing piece is installed the guide block, the guide way has been seted up on the top of lift loop bar, constitute the vertical sliding structure between bracing piece and the lift loop bar, the slip distance of lift loop bar equals the double of the distance between eccentric shaft and the gear axle center simultaneously.

Preferably, the adjusting mechanism comprises a supporting plate arranged at the bottom end of the outer side of the triangular prism, a first lantern ring is arranged at the outer part of the top end of the supporting plate, an extension plate penetrates through the first lantern ring, a second lantern ring is arranged at the outer side of the top end of the extension plate, the supporting plate is sleeved with the second lantern ring, a spring is arranged at one end, close to the triangular prism, of the extension plate, and one end of the spring is connected with the outer wall of the second lantern ring.

Preferably, the support plate and the extension plate form a left-right sliding structure through the actions of the first lantern ring and the second lantern ring, and meanwhile, the support plate is provided with three in total and is distributed in a triangular shape on the triangular prism.

Compared with the prior art, the utility model has the beneficial effects that:

(1) The pump shell is driven to move out of the interior of the paint dipping box through the ascending movement of the lifting block, meanwhile, the lifting block drives the gear to ascend, the meshing effect between the gear and the toothed plate is utilized, and the actions of the movable rod, the eccentric shaft and the like are combined to synchronously realize the up-and-down reciprocating sliding of the lifting sleeve rod outside the supporting rod, so that the synchronous up-and-down vibration action of the pump shell in the ascending process is realized, the up-and-down vibration inertia is utilized, the superfluous paint attached to the outer part of the pump shell is enabled to drop rapidly, and scratch marks generated by the dropping of the paint in the subsequent drying process of the pump shell are reduced, so that the quality and the efficiency of paint dipping processing of the pump shell are ensured;

(2) Through the cooperation of a plurality of supporting shoe and spacing fixture block to be convenient for support spacingly to the pump case bottom, utilize the elastic action of spring simultaneously, make first lantern ring outwards extend, thereby change the spacing diameter between the supporting shoe, about so that carry out the centre gripping to the pump case of different diameter sizes, improve the application scope of this dip coating device, strengthen its practicality.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, and it is obvious that the drawings in the following description are some embodiments of the present utility model, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view of a front cross-sectional structure of the present utility model;

FIG. 2 is a schematic diagram of a screw distribution three-dimensional structure of the utility model;

FIG. 3 is a schematic perspective view of a synchronous oscillating mechanism according to the present utility model;

fig. 4 is a schematic perspective view of an adjusting mechanism of the present utility model.

The reference numerals in the figure illustrate that 1, a paint dipping box, 2, a protective cover, 3, a supporting bearing, 4, a triangular prism, 5, a lifting sleeve rod, 6, a supporting rod, 7, a lifting block, 8, a synchronous oscillating mechanism, 801, a gear, 802, a toothed plate, 803, a movable rod, 804, an eccentric shaft, 805, a rotating sleeve, 806, a connecting rod, 9, an adjusting mechanism, 901, a supporting plate, 902, a first lantern ring, 903, an extending plate, 904, a second lantern ring, 905, a spring, 10, a supporting block, 11, a limiting clamping block, 12, a servo motor, 13 and a screw rod.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are some embodiments of the present utility model, but not all embodiments of the present utility model. All other embodiments, which can be made by one of ordinary skill in the art without inventive faculty, are intended to be within the scope of the present utility model, based on the embodiments of the present utility model.

Referring to fig. 1-4, an embodiment of the utility model provides a paint dipping device for pump shell production, which comprises a paint dipping box 1, wherein a protective cover 2 is arranged at the top end of the paint dipping box 1, a servo motor 12 is arranged at the bottom end of the back side of the protective cover 2, a screw rod 13 is arranged at the top end of the servo motor 12, two ends of the screw rod 13 are connected with the back side of the protective cover 2 through a support bearing 3, a lifting block 7 is sleeved outside the screw rod 13, the front side of the lifting block 7 extends into the protective cover 2, and a supporting rod 6 is arranged at the front side of the bottom end of the lifting block 7;

A guide block is arranged at the bottom end of the supporting rod 6, a guide groove is arranged at the top end of the lifting sleeve rod 5, an up-down sliding structure is formed between the supporting rod 6 and the lifting sleeve rod 5, and meanwhile, the sliding distance of the lifting sleeve rod 5 is equal to twice of the distance between the eccentric shaft 804 and the axle center of the gear 801;

Specifically, as shown in fig. 1, 2 and 3, in use, through the up-and-down sliding action of the lifting sleeve rod 5 outside the supporting rod 6, the pump shell can vibrate up and down more frequently in a single up-and-down moving process, so that the pump shell can quickly throw off excessive paint after paint dipping is finished, and the quality and efficiency of subsequent drying are improved;

The bottom end of the supporting rod 6 is sleeved with a lifting sleeve rod 5, a triangular prism 4 is arranged at the bottom end of the lifting sleeve rod 5, and an adjusting mechanism 9 is arranged at the bottom end of the outer side of the triangular prism 4;

The adjusting mechanism 9 comprises a supporting plate 901 arranged at the bottom end of the outer side of the triangular prism 4, a first lantern ring 902 is arranged at the outer part of the top end of the supporting plate 901, an extension plate 903 penetrates through the inner part of the first lantern ring 902, a second lantern ring 904 is arranged at the outer side of the top end of the extension plate 903, the supporting plate 901 is sleeved inside the second lantern ring 904, a spring 905 is arranged at one end of the extension plate 903, which is close to the triangular prism 4, and one end of the spring 905 is connected with the outer wall of the second lantern ring 904;

The left-right sliding structure is formed between the support plate 901 and the extension plate 903 through the actions of the first collar 902 and the second collar 904, and meanwhile, three support plates 901 are arranged in total, and the support plates 901 are distributed on the triangular prism 4 in a triangular manner;

Specifically, as shown in fig. 1 and fig. 4, when in use, the elastic action of the spring 905 is utilized to make the extension plate 903 generate an outward expansion action, so that the position of the limit clamping block 11 is changed, and the bottom clamping effect on pump shells with different diameters is realized;

One end of the 9 is provided with the 10, two sides of the top end of the 10 are provided with the 11, the front sections of the two sides of the 7 are provided with the 8, and the 8 is utilized to drive the 5 to slide up and down along the outer part of the 6, so that up and down oscillation of the pump shell is realized;

A supporting block 10 is arranged at one end of the adjusting mechanism 9, limiting clamping blocks 11 are arranged at two sides of the top end of the supporting block 10, synchronous oscillating mechanisms 8 are arranged at the front sections of two sides of the lifting block 7, and the synchronous oscillating mechanisms 8 are utilized to drive the lifting sleeve rod 5 to slide up and down along the outer part of the supporting rod 6, so that up and down oscillation of a pump shell is realized;

The synchronous oscillation mechanism 8 comprises a gear 801 arranged on the outer side of the lifting block 7, an eccentric shaft 804 is arranged on the outer side of the gear 801, a movable rod 803 is sleeved outside the eccentric shaft 804, a connecting rod 806 is correspondingly arranged on the outer side of the lifting sleeve rod 5 below the gear 801, a rotating sleeve 805 is sleeved at one end of the outer side of the connecting rod 806, a low-energy crown of the rotating sleeve 805 is welded with the bottom end of the movable rod 803, a toothed plate 802 is meshed inside the gear 801, and the inner side of the toothed plate 802 is connected with the inner wall of the protective cover 2;

the top end of the movable rod 803 is in rotary connection with the gear 801 through the action of the eccentric shaft 804, and the bottom end of the movable rod 803 is in rotary connection with the connecting rod 806 through the action of the rotary sleeve 805;

the gear 801 rotates along the toothed plate 802 in a meshed mode for four circles, and the length of the toothed plate 802 is equal to one half of the descending movement length of the lifting block 7;

Specifically, as shown in fig. 1 and 3, when in use, the lifting block 7 is utilized to move to drive the gear 801 to synchronously move, and then the gear 801 is matched with the toothed plate 802 to synchronously rotate, so that the lifting sleeve rod 5 is matched with the movable rod 803 and the like to realize the up-and-down reciprocating traction effect, and the up-and-down reciprocating movement is carried out along with the single descent or the single ascent of the pump shell, so that the pump shell can automatically and directly shake and throw out redundant paint after the paint dipping is finished.

When the utility model is used, the supporting block 10 is firstly pressed inwards, the first lantern ring 902 is firstly folded inwards, then the pump shell is sleeved outside the triangular prism 4 from bottom to top, the first lantern ring 902 is loosened, the first lantern ring 902 is outwards unfolded along the supporting plate 901 by utilizing the elastic action of the spring 905, the supporting block 10 is outwards moved, the inner wall of the pump shell is conveniently clamped by utilizing the action of the limiting clamping block 11, and the limiting fixing effect on the pump shells with different diameters is realized by matching with the supporting action of the supporting block 10;

Secondly, by starting the servo motor 12, the screw rod 13 rotates, so that the lifting block 7 moves downwards along the through hole of the protective cover 2, and the lifting block 7 drives the pump shell below to enter the interior of the paint dipping box 1, so that the paint dipping effect on the pump shell is realized;

Finally, the lifting block 7 is reset and lifted, after the lifting block 7 is lifted to a distance of one end, the gear 801 driven by the lifting block 7 contacts and is meshed with the toothed plate 802, so that the gear 801 rotates to drive the eccentric shaft 804 to rotate, one end of the movable rod 803 moves, the other end of the movable rod 803 presses the rotating sleeve 805 downwards, the rotating sleeve 805 pushes the lifting sleeve rod 5 to move downwards through the connecting rod 806, the bottom end of the movable rod 803 generates up-and-down reciprocating push and pull on the rotating sleeve 805 by utilizing the continuous rotation process of the gear 801, the lifting sleeve rod 5 performs up-and-down reciprocating vibration along the supporting rod 6, and then the pump shell with the lower paint immersed is driven to synchronously move, so that the pump shell can throw out redundant paint downwards in the lifting process by utilizing the inertia effect of the up-and-down vibration.

In the description of the present utility model, unless explicitly stated or limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected, mechanically connected, electrically connected, directly connected, indirectly connected via an intervening medium, or in communication between two elements. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

The apparatus embodiments described above are merely illustrative, wherein the elements illustrated as separate elements may or may not be physically separate, and the elements shown as elements may or may not be physical elements, may be located in one place, or may be distributed over a plurality of network elements. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of this embodiment. Those of ordinary skill in the art will understand and implement the present invention without undue burden.

It should be noted that the above-mentioned embodiments are merely for illustrating the technical solution of the present utility model, and not for limiting the same, and although the present utility model has been described in detail with reference to the above-mentioned embodiments, it should be understood by those skilled in the art that the technical solution described in the above-mentioned embodiments may be modified or some technical features may be equivalently replaced, and these modifications or substitutions do not make the essence of the corresponding technical solution deviate from the spirit and scope of the technical solution of the embodiments of the present utility model.

Claims

1. The utility model provides a pump case production is with soaking lacquer device, includes soaking lacquer case (1), wherein the top of soaking lacquer case (1) is provided with protection casing (2), and servo motor (12) are installed to the bottom of protection casing (2) dorsal, lead screw (13) are installed on the top of servo motor (12), and the both ends of lead screw (13) are connected with the dorsal part of protection casing (2) through supporting bearing (3), the outside cover of lead screw (13) is equipped with lifter (7), and the front side of lifter (7) extends to the inside of protection casing (2), bracing piece (6) are installed to the front side of lifter (7) bottom, and the bottom cover of bracing piece (6) is equipped with lift loop bar (5), triangular prism (4) are installed to the bottom of lift loop bar (5), and the bottom in triangular prism (4) outside all is provided with adjustment mechanism (9), supporting shoe (10) are all installed on one end of adjustment mechanism (9), and limit fixture block (11) are all installed on both sides on the top of supporting shoe (10), lifter (7) front side extends to the inside of protection casing (2), and the outside the upper and lower vibration mechanism (8) are used to vibrate on the upper and lower vibration section (8) is realized to the synchronous mechanism that the upper and lower vibration is equipped with in the bottom of the section (8;

Synchronous vibration mechanism (8) are including installing in gear (801) in the lifter block (7) outside, and eccentric shaft (804) are installed in the outside of gear (801), and the outside cover of eccentric shaft (804) is equipped with movable rod (803), connecting rod (806) are installed in the outside of the lift loop bar (5) of gear (801) below correspondence, and the outside one end cover of connecting rod (806) is equipped with rotates cover (805), the bottom welding of crown and movable rod (803) can be abstracted to the low energy of rotating cover (805), the inside meshing of gear (801) has pinion rack (802), and the inboard of pinion rack (802) is connected with the inner wall of protection casing (2).

2. The paint dipping device for pump housing production according to claim 1, wherein the top end of the movable rod (803) is in rotary connection with the gear (801) through the action of the eccentric shaft (804), and the bottom end of the movable rod (803) is in rotary connection with the connecting rod (806) through the action of the rotary sleeve (805).

3. A paint dipping apparatus for pump housing production as set forth in claim 1, wherein the gear (801) is engaged and rotated four times along a toothed plate (802), and the length of the toothed plate (802) is equal to one half of the descending movement length of the lifting block (7).

4. The paint dipping device for pump housing production according to claim 1, wherein the bottom end of the supporting rod (6) is provided with a guide block, the top end of the lifting sleeve rod (5) is provided with a guide groove, an up-down sliding structure is formed between the supporting rod (6) and the lifting sleeve rod (5), and meanwhile, the sliding distance of the lifting sleeve rod (5) is equal to twice the distance between the eccentric shaft (804) and the axle center of the gear (801).

5. The paint dipping device for pump housing production according to claim 1, wherein the adjusting mechanism (9) comprises a supporting plate (901) arranged at the bottom end of the outer side of the triangular prism (4), a first sleeve ring (902) is arranged at the outer part of the top end of the supporting plate (901), an extension plate (903) penetrates through the inner part of the first sleeve ring (902), a second sleeve ring (904) is arranged at the outer side of the top end of the extension plate (903), the supporting plate (901) is sleeved inside by the second sleeve ring (904), a spring (905) is arranged at one end, close to the triangular prism (4), of the extension plate (903), and one end of the spring (905) is connected with the outer wall of the second sleeve ring (904).

6. The paint dipping device for pump housing production according to claim 5, wherein a left-right sliding structure is formed between the supporting plate (901) and the extension plate (903) through the actions of the first sleeve ring (902) and the second sleeve ring (904), three supporting plates (901) are arranged at the same time, and the supporting plates (901) are distributed in a triangular shape on the triangular prism (4).