CN221458788U - Intelligent solder paste temperature-returning timing management library - Google Patents

Abstract

The utility model relates to the technical field of temperature return timing management libraries and discloses an intelligent solder paste temperature return timing management library, which comprises a box body, wherein a card reader and a power switch are arranged on the side part of the box body, a discharge hole and a feed hole are formed in the side part of the box body, a triaxial moving sliding table for transporting solder paste bottles is arranged in the box body, the triaxial moving sliding table comprises an X-axis moving sliding table, a Y-axis moving sliding table and a Z-axis moving sliding table, the X-axis moving sliding table is arranged on the inner wall of the box body, the Y-axis moving sliding table is vertically arranged on the side part of the X-axis moving sliding table, the Z-axis moving sliding table is arranged on the side part of the Y-axis moving sliding table, and by arranging an oil feeding mechanism, when a first through hole of a Z-axis sliding block slides to a pushing block, the pushing block can extrude a sliding plate to drive a rod body, so that a piston disc moves upwards, and oil body can enter an oil groove and flow to a contact part of the Z-axis sliding rod, and when the sliding plate is not contacted with the pushing block any more, the sliding plate returns to an initial position, and oil feeding is stopped.

Description

Intelligent solder paste temperature-returning timing management library

Technical Field

The utility model relates to the technical field of temperature return timing management libraries, in particular to an intelligent solder paste temperature return timing management library.

Background

The intelligent solder paste temperature-returning timing management warehouse is equipment for SMT production line, and can store solder paste and prepare material for intelligent management. The intelligent temperature-returning management system is designed by adopting 5 layers of drawers, and can enable solder paste and red glue to be continuously returned to temperature, so that the production efficiency is improved. Thus, operators can operate more conveniently, the running of the equipment is safer and more stable, and the service life is longer. In addition, the storage time, the storage person, the temperature return time, the use time and the like of each bottle of solder paste can be traced. The access part of the device needs manual operation, and the rest part is completed by the machine. The application of the device can lay a technical foundation and a device foundation for implementing intelligent manufacturing and lean management, and in general, the intelligent solder paste temperature-returning timing management library is very advanced and practical.

At present, a common method for conveying solder paste bottles into a temperature-return timing management warehouse is to adopt a double-shaft sliding table. The double-shaft sliding table is automatic equipment and is generally composed of a platform, a sliding groove, a transmission device and a control system, but when the double-shaft sliding table runs for a long time, the friction coefficient is increased, the resistance and the abrasion are increased under the action of pressure, so that the sliding is not smooth enough, and the performance and the service life of the equipment are affected. Meanwhile, the surface of the threaded rod and the surface of the sliding rod are possibly worn and aged, so that the service life of the equipment is further reduced; therefore, the existing requirements are not met, and an intelligent solder paste temperature-returning timing management library is provided.

Disclosure of utility model

The utility model provides an intelligent solder paste temperature-returning timing management warehouse, which has the beneficial effects of lubricating the surface of a Z-axis threaded rod in a proper amount, reducing friction and abrasion and prolonging the service life, and solves the problems that in the prior art, a common method is to adopt a double-shaft sliding table for conveying solder paste bottles into the temperature-returning timing management warehouse. The double-shaft sliding table is automatic equipment and is generally composed of a platform, a sliding groove, a transmission device and a control system, but when the double-shaft sliding table runs for a long time, the friction coefficient is increased, the resistance and the abrasion are increased under the action of pressure, so that the sliding is not smooth enough, and the performance and the service life of the equipment are affected. Meanwhile, the surface of the threaded rod and the surface of the sliding rod are possibly worn and aged, so that the service life of the equipment is further reduced.

The utility model provides the following technical scheme: the utility model provides an intelligence solder paste returns temperature timing management storehouse, includes the box, card swiping ware and switch are installed to the box lateral part, discharge gate and pan feeding mouth have been seted up to the box lateral part, and the inside triaxial that is used for transporting the solder paste bottle that is provided with of box removes the slip table, triaxial removes the slip table and removes the slip table including X axle removal slip table, Y axle and remove slip table and Z axle, X axle removes the slip table and installs the inner wall of box, Y axle removes the slip table and installs perpendicularly X axle removes the lateral part of slip table, Z axle removes the slip table and installs Y axle removes the lateral part of slip table.

As an alternative scheme of the intelligent solder paste temperature-returning timing management library, the utility model comprises the following steps: the X-axis movable sliding table comprises an X-axis mounting rod and an X-axis fixing block, wherein the X-axis mounting rod is connected to the inner wall of the box body, the X-axis fixing block is connected to the end part of the X-axis mounting rod, and an X-axis sliding rod and an X-axis threaded rod are inserted into the side part of the X-axis fixing block.

As an alternative scheme of the intelligent solder paste temperature-returning timing management library, the utility model comprises the following steps: the Y-axis movable sliding table comprises a Y-axis installation rod and a Y-axis fixing block, the Y-axis fixing block is connected to the end part of the Y-axis installation rod, the X-axis sliding rod penetrates through the side part of the Y-axis fixing block, and the side part of the Y-axis fixing block is inserted with the Y-axis sliding rod and the Y-axis threaded rod.

As an alternative scheme of the intelligent solder paste temperature-returning timing management library, the utility model comprises the following steps: the bottom of the Z-axis movable sliding table is connected with a Z-axis sliding block, and the Y-axis sliding rod and the Y-axis threaded rod are spliced together at the side part of the Z-axis sliding block.

As an alternative scheme of the intelligent solder paste temperature-returning timing management library, the utility model comprises the following steps: z axle removes slip table and includes Z axle installation pole and Z axle fixed block, Z axle installation pole is connected the lateral part of Z axle slider, Z axle fixed block is connected the tip of Z axle installation pole, the lateral part of Z axle fixed block is pegged graft and is had Z axle slide bar and Z axle threaded rod, Z axle slide bar Z axle threaded rod's lateral part overlap jointly and is equipped with Z axle sliding block, Z axle sliding block lateral part is provided with electronic clamping jaw.

As an alternative scheme of the intelligent solder paste temperature-returning timing management library, the utility model comprises the following steps: the Y-axis fixed block, the Z-axis sliding block and the Z-axis sliding block are internally provided with oil feeding mechanisms respectively, the side part of the Z-axis sliding block is provided with a first through hole and a second through hole, the oil feeding mechanisms comprise an oil storage cavity and an oil groove, the oil storage cavity is formed in the Z-axis sliding block, and the oil groove is communicated with the oil storage cavity, the first through hole and the second through hole.

As an alternative scheme of the intelligent solder paste temperature-returning timing management library, the utility model comprises the following steps: the oil tank is internally provided with a lug, the side part of the lug is provided with a sliding plate, a spring is connected between the sliding plate and the lug, the middle part of the sliding plate is connected with a rod body, the other end of the rod body is connected with a piston disc, and the piston disc is in sliding connection with the inner wall of the oil tank.

As an alternative scheme of the intelligent solder paste temperature-returning timing management library, the utility model comprises the following steps: the X-axis sliding rod, the Y-axis sliding rod and the side part of the Z-axis sliding rod are respectively provided with a pushing block.

The utility model has the following beneficial effects:

1. This intelligence solder paste returns timing management storehouse of temperature through setting up oil feeding mechanism, when the motor drives Z axle threaded rod and rotates, and Z axle sliding block can slide on Z axle slide bar, and when the first through-hole of Z axle sliding block slides the impeller, the impeller can extrude the slide to drive the body of rod, make the piston disc upwards move. In this in-process, oil can get into the oil groove and flow to the contact position of Z axle slide bar and Z axle threaded rod, plays lubricated and protection effect, and when the slide no longer contacted the impeller, the spring can drive slide and piston disc and return initial position, stops to feed oil, and X axle slide bar, X axle threaded rod, Y axle threaded rod and Y axle slide bar are with last, and the surface of Z axle slide bar, Z axle threaded rod can obtain appropriate amount of lubrication, reduces friction and wearing and tearing, increase of service life.

2. This intelligence solder paste timing management storehouse that returns temperature sets up through oil groove and first through-hole, second through-hole intercommunication, when carrying out the oil feeding to Z axle slide bar, Z axle threaded rod is also being carried out the oil feeding, can ensure that the contact position of Z axle slide bar and Z axle threaded rod can fully be covered to the lubricant, and X axle slide bar, X axle threaded rod, Y axle threaded rod and Y axle slide bar are with last, improve the work efficiency and the reliability of system, protection key parts to reduce maintenance cost.

Drawings

Fig. 1 is a schematic perspective view of the present utility model.

Fig. 2 is a schematic view of the structure of the present utility model in section.

Fig. 3 is a schematic perspective view of a three-axis mobile sliding table according to the present utility model.

Fig. 4 is a schematic diagram showing a sectional structure of a Z-axis slider according to the present utility model.

Fig. 5 is an enlarged schematic view of the structure of the present utility model at a.

In the figure: 110. a case; 111. a card reader; 112. a power switch; 113. a discharge port; 114. a feed inlet; 120. the three-axis moving slipway; 121. x-axis moving slipway; 122. an X-axis mounting rod; 123. an X-axis fixing block; 124. an X-axis sliding rod; 125. an X-axis threaded rod; 140. y-axis moving slipway; 141. a Y-axis mounting rod; 142. a Y-axis fixed block; 143. a Y-axis slide bar; 144. a Y-axis threaded rod; 160. z-axis moving slipway; 161. a Z-axis slider; 162. a Z-axis mounting rod; 163. a Z-axis fixed block; 164. a Z-axis slide bar; 165. a Z-axis threaded rod; 170. a Z-axis sliding block; 171. an electric clamping jaw; 172. a first through hole; 173. a second through hole; 174. an oil feeding mechanism; 175. an oil storage chamber; 180. an oil groove; 181. a bump; 182. a slide plate; 183. a spring; 184. a rod body; 185. a piston disc; 190. pushing the block.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

First, this embodiment is intended to facilitate solving the problem of employing a dual axis slip for transporting solder paste bottles into a temperature return timing management warehouse. The double-shaft sliding table is automatic equipment and is generally composed of a platform, a sliding groove, a transmission device and a control system, but when the double-shaft sliding table runs for a long time, the friction coefficient is increased, the resistance and the abrasion are increased under the action of pressure, so that the sliding is not smooth enough, and the performance and the service life of the equipment are affected. Meanwhile, the problem that the service life of equipment is further reduced due to abrasion and aging of the surfaces of the threaded rod and the sliding rod is possibly caused, and referring to fig. 1-5, an intelligent solder paste temperature-returning timing management library comprises a box body 110, a card reader 111 and a power switch 112 are arranged on the side portion of the box body 110, a discharge hole 113 and a feed hole 114 are formed in the side portion of the box body 110, a triaxial moving sliding table 120 for transporting solder paste bottles is arranged in the box body 110, the triaxial moving sliding table 120 comprises an X-axis moving sliding table 121, a Y-axis moving sliding table 140 and a Z-axis moving sliding table 160, the X-axis moving sliding table 121 is arranged on the inner wall of the box body 110, the Y-axis moving sliding table 140 is vertically arranged on the side portion of the X-axis moving sliding table 121, the X-axis moving sliding table 121 drives the Y-axis moving sliding table 140 to slide, the Z-axis moving sliding table 160 is arranged on the side portion of the Y-axis moving sliding table 140, and the Y-axis moving sliding table 140 drives the Z-axis moving sliding table 160 to slide.

The X-axis moving sliding table 121 comprises an X-axis mounting rod 122 and an X-axis fixing block 123, the X-axis mounting rod 122 is connected to the inner wall of the box 110, the X-axis fixing block 123 is connected to the end portion of the X-axis mounting rod 122, an X-axis sliding rod 124 and an X-axis threaded rod 125 are inserted into the side portion of the X-axis fixing block 123, a servo motor is connected to the side portion of the X-axis fixing block 123, and an output shaft of the servo motor is connected with the X-axis threaded rod 125 in a key mode.

The Y-axis movable sliding table 140 comprises a Y-axis mounting rod 141 and a Y-axis fixing block 142, the Y-axis fixing block 142 is connected to the end of the Y-axis mounting rod 141, the X-axis sliding rod 124 and the X-axis threaded rod 125 penetrate through the side part of the Y-axis fixing block 142, the side part of the Y-axis fixing block 142 is inserted with a Y-axis sliding rod 143 and a Y-axis threaded rod 144, the side part of the Y-axis fixing block 142 is connected with a servo motor, an output shaft of the servo motor is connected with the Y-axis threaded rod 144 in a key way, the bottom of the Z-axis movable sliding table 160 is connected with a Z-axis sliding block 161, and the Y-axis sliding rod 143 and the Y-axis threaded rod 144 are inserted into the side part of the Z-axis sliding block 161 together.

The Z-axis moving sliding table 160 comprises a Z-axis mounting rod 162 and a Z-axis fixing block 163, the Z-axis mounting rod 162 is connected to the side portion of the Z-axis sliding block 161, the Z-axis fixing block 163 is connected to the end portion of the Z-axis mounting rod 162, the side portion of the Z-axis fixing block 163 is inserted with a Z-axis sliding rod 164 and a Z-axis threaded rod 165, the side portion of the Z-axis fixing block 163 is connected with a servo motor, an output shaft of the servo motor is connected with the Z-axis threaded rod 165 in a key manner, the side portions of the Z-axis sliding rod 164 and the Z-axis threaded rod 165 are sleeved with a Z-axis sliding block 170 in a common mode, and the side portion of the Z-axis sliding block 170 is provided with an electric clamping jaw 171.

The Y-axis fixed block 142, the Z-axis sliding block 161 and the Z-axis sliding block 170 are internally provided with an oil feeding mechanism 174 respectively, and the side parts of the Y-axis fixed block 142, the Z-axis sliding block 161 and the Z-axis sliding block 170 are provided with oil inlets, the side part of the Z-axis sliding block 170 is provided with a first through hole 172 and a second through hole 173, the oil feeding mechanism 174 comprises an oil storage cavity 175 and an oil groove 180, the oil storage cavity 175 is formed in the Z-axis sliding block 170, the oil groove 180 is internally provided with a bump 181, the side part of the bump 181 is provided with a sliding plate 182, a spring 183 is connected between the sliding plate 182 and the bump 181, the middle part of the sliding plate 182 is connected with a rod body 184, the other end of the rod body 184 is connected with a piston disc 185, the piston disc 185 is in sliding connection with the inner wall of the oil groove 180, the Y-axis fixed block 142 and the Z-axis sliding block 161 are the same, and the side parts of the X-axis sliding rod 124, the Y-axis sliding rod 143 and the Z-axis sliding rod 164 are respectively provided with a pushing block 190.

In this embodiment: through setting up oil feed mechanism 174, when the motor drives Z axle threaded rod 165 rotation, Z axle slider 170 can slide on Z axle slide bar 164, and when the first through-hole 172 of Z axle slider 170 slides to pushing block 190, pushing block 190 can extrude slide plate 182 to drive body of rod 184, make piston disc 185 upwards move. In this process, oil will enter the oil groove 180 and flow to the contact part of the Z-axis sliding rod 164 and the Z-axis threaded rod 165, so as to perform lubrication and protection, and when the sliding plate 182 no longer contacts the pushing block 190, the spring 183 will drive the sliding plate 182 and the piston disc 185 to return to the initial position, stopping oil feeding, and the surfaces of the Z-axis sliding rod and the Z-axis threaded rod 165 can be properly lubricated, so that friction and wear are reduced, and the service life is prolonged.

In the second embodiment, the present embodiment is intended to facilitate solving the oil feeding problem of the threaded rod, and the present embodiment is an improvement made on the basis of the first embodiment, specifically, referring to fig. 1-5, the oil groove 180 communicates with the oil storage cavity 175, the first through hole 172 and the second through hole 173, so as to ensure that the lubricant can be continuously supplied, improve the lubrication effect and the lubrication capacity, simplify the lubrication system structure, thereby ensuring good lubrication of the Z-axis sliding rod 164 and the Z-axis threaded rod 165, prolonging the service life thereof, and improving the reliability and stability of the system.

In this embodiment: through setting up oil groove 180 and first through-hole 172, second through-hole 173 intercommunication, when carrying out the oil feeding to Z axle slide bar 164, Z axle threaded rod 165 is also carrying out the oil feeding, can ensure that the contact position of lubricant can fully cover Z axle slide bar 164 and Z axle threaded rod 165, improves the work efficiency and the reliability of system, protects key parts to reduce maintenance cost.

The foregoing is merely a preferred embodiment of the present utility model, and it should be noted that it will be apparent to those skilled in the art that several modifications and variations can be made without departing from the technical principle of the present utility model, and these modifications and variations should also be regarded as the scope of the utility model.

Claims (8)

1. An intelligent solder paste temperature-returning timing management warehouse comprises a box body (110), and is characterized in that: card swiping device (111) and switch (112) are installed to box (110) lateral part, discharge gate (113) and pan feeding mouth (114) have been seted up to box (110) lateral part, and box (110) inside is provided with triaxial removal slip table (120) that are used for transporting the solder paste bottle, triaxial removal slip table (120) are including X axle removal slip table (121), Y axle removal slip table (140) and Z axle removal slip table (160), X axle removal slip table (121) are installed the inner wall of box (110), Y axle removal slip table (140) are installed perpendicularly the lateral part of X axle removal slip table (121), Z axle removal slip table (160) are installed the lateral part of Y axle removal slip table (140).

2. The intelligent solder paste tempering timing management library according to claim 1, wherein: the X-axis movable sliding table (121) comprises an X-axis mounting rod (122) and an X-axis fixing block (123), the X-axis mounting rod (122) is connected to the inner wall of the box body (110), the X-axis fixing block (123) is connected to the end part of the X-axis mounting rod (122), and an X-axis sliding rod (124) and an X-axis threaded rod (125) are inserted into the side part of the X-axis fixing block (123).

3. The intelligent solder paste tempering timing management library according to claim 2, wherein: the Y-axis movable sliding table (140) comprises a Y-axis mounting rod (141) and a Y-axis fixing block (142), the Y-axis fixing block (142) is connected to the end of the Y-axis mounting rod (141), the X-axis sliding rod (124) and the X-axis threaded rod (125) penetrate through the side part of the Y-axis fixing block (142), and the side part of the Y-axis fixing block (142) is inserted with a Y-axis sliding rod (143) and a Y-axis threaded rod (144).

4. An intelligent solder paste tempering timing management library according to claim 3, wherein: the bottom of the Z-axis moving sliding table (160) is connected with a Z-axis sliding block (161), and the Y-axis sliding rod (143) and the Y-axis threaded rod (144) are inserted into the side part of the Z-axis sliding block (161) together.

5. The intelligent solder paste tempering timing management library according to claim 4, wherein: z axle removes slip table (160) including Z axle installation pole (162) and Z axle fixed block (163), Z axle installation pole (162) are connected the lateral part of Z axle slider (161), Z axle fixed block (163) are connected the tip of Z axle installation pole (162), the lateral part of Z axle fixed block (163) has pegged graft Z axle slide bar (164) and Z axle threaded rod (165), Z axle slide bar (164) Z axle slide bar's (165) the lateral part of Z axle threaded rod (165) overlaps jointly and is equipped with Z axle sliding block (170), Z axle sliding block (170) lateral part is provided with electronic clamping jaw (171).

6. The intelligent solder paste tempering timing management library according to claim 5, wherein: y axle fixed block (142) Z axle slider (161) with inside oil feed mechanism (174) that is provided with respectively of Z axle slider (170), first through-hole (172) and second through-hole (173) have been seted up to Z axle slider (170) lateral part, oil feed mechanism (174) include oil storage chamber (175) and oil groove (180), oil storage chamber (175) are seted up the inside of Z axle slider (170), oil groove (180) intercommunication oil storage chamber (175) first through-hole (172) with second through-hole (173).

7. The intelligent solder paste tempering timing management library according to claim 6, wherein: the oil tank (180) is inside to be provided with lug (181), lug (181) lateral part is provided with slide (182), slide (182) with be connected with spring (183) between lug (181), slide (182) middle part is connected with body of rod (184), the other end of body of rod (184) is connected with piston disc (185), piston disc (185) with the inner wall sliding connection of oil tank (180).

8. The intelligent solder paste tempering timing management library according to claim 7, wherein: the X-axis sliding rod (124), the Y-axis sliding rod (143) and the side part of the Z-axis sliding rod (164) are respectively provided with a pushing block (190).