Probe quick change jig for mold manufacturing

By designing a quick-change fixture for probes used in mold manufacturing, the problem of inconvenient quick clamping and adjustment of existing probe clamping components was solved, achieving stable support and convenient replacement of probes, and improving the operational efficiency of mold inspection.

CN224390854UActive Publication Date: 2026-06-23HUAIAN SHENGFAYUAN MOLD CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
HUAIAN SHENGFAYUAN MOLD CO LTD
Filing Date
2025-06-05
Publication Date
2026-06-23

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Abstract

The utility model discloses a probe quick replacement anchor clamps for mould manufacturing relates to probe anchor clamps field, and its technical scheme main points are: including vertical rod main part, the vertical rod main part lower end assembly has the lower clamping seat, and the assembly with corresponding upper clamping assembly on the vertical rod main part, the vertical rod main part lower end and lower clamping seat between assembly has the bottom pillar, and the upper clamping assembly lower end and vertical rod main part upper end between assembly has the upper pillar, the lower clamping seat includes lower frame piece, and the inside of lower frame piece is provided with the inside and resists piece, and the inside and resists piece bottom supports lower screw rod, and lower screw rod screw thread inserts in the inside of lower frame piece bottom wall, the upper clamping assembly includes upper vertical frame, and the upper vertical frame upper and lower both ends integral fixedly equipped with horizontal sliding plate and upper chuck, and the upper pillar top integral setting has top sliding rod, the horizontal sliding plate is sleeved in top sliding rod outer wall, and top sliding rod top assembly has the inside chuck corresponding with upper chuck, effect is convenient according to the quick clamping and auxiliary adjustment support of use need, is favorable to the improvement use efficiency.
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Description

Technical Field

[0001] This utility model relates to the field of probe clamping technology, and more specifically, it relates to a quick-change probe clamp for mold manufacturing. Background Technology

[0002] In the mold manufacturing process, quality inspection of the mold is of utmost importance, and the accurate positioning and stable clamping of the inspection probe are key to ensuring the reliability of the inspection data.

[0003] In response, Chinese patent application number CN202120951388.9 discloses an adjustable angle detection probe extension rod for molds, including a clamping mechanism, a rotating mechanism on the right side of the clamping mechanism, an adjusting measuring mechanism in the middle of the rotating mechanism, a fixing mechanism on the right side of the rotating mechanism, and the rotating mechanism including a first long rod and a second long rod. A first connector is provided at the left end of the first long rod, and a positioning rod is provided on the outer side of the first long rod.

[0004] However, existing probe clamping components are inconvenient for quick clamping and auxiliary adjustment support according to usage needs, which affects the efficiency of operation.

[0005] Therefore, in order to solve the above-mentioned technical problems, this application proposes a quick-change fixture for probes in mold manufacturing. Utility Model Content

[0006] In view of the shortcomings of the existing technology, the purpose of this utility model is to provide a quick-change fixture for probes in mold manufacturing.

[0007] To achieve the above objectives, this utility model provides the following technical solution: a quick-change fixture for a probe used in mold manufacturing, comprising a main body, a lower clamping seat mounted on the lower end of the main body, and an upper clamping assembly mounted on the main body, a bottom support column mounted between the lower end of the main body and the lower clamping seat, and an upper support column mounted between the lower end of the upper clamping assembly and the upper end of the main body, the lower clamping seat comprising a lower frame, an inner abutment plate disposed inside the lower frame, a lower screw rod supported at the bottom of the inner abutment plate, and the lower screw rod threadedly inserted into the bottom wall of the lower frame, the upper clamping assembly comprising an upper vertical frame, a horizontal sliding plate and an upper clamping head integrally fixed at the upper and lower ends of the upper vertical frame, and a top sliding rod integrally disposed at the top of the upper support column, the horizontal sliding plate sleeved on the outer wall of the top sliding rod, and an inner clamping head corresponding to the upper clamping head mounted at the top of the top sliding rod.

[0008] As a further improvement of this solution, a spring is sleeved on the outer wall of the top sliding rod. The spring is located between the cross sliding plate and the inner chuck. Clamping gaskets are adhesively assembled on the inner top wall of the upper chuck and the inner top wall of the inner chuck. A top nut is threadedly sleeved on the top end of the top sliding rod, and the top nut is located inside the inner chuck. A top inner groove corresponding to the top nut is opened inside the inner chuck, and an inner cushion block is filled inside the top inner groove.

[0009] As a further improvement of this solution, the inner side of the inner chuck is fitted on the inner wall of the upper vertical frame. A side sliding block is integrally fixed in the center of the inner side end of the inner chuck, and the side sliding block is clamped inside the upper vertical frame. A side sliding groove corresponding to the side sliding block is opened inside the upper vertical frame.

[0010] As a further improvement of this solution, a bottom clamping sleeve is sleeved on the upper end of the lower screw rod, and the bottom clamping sleeve is fixed on the bottom wall of the inner pressing piece. A bottom clamping ring is clamped inside the bottom clamping sleeve, and the bottom clamping ring is fixed on the top end of the lower screw rod. A lower torsion block is integrally fixed on the bottom end of the lower screw rod, and a lower inserting slot is opened inside the lower torsion block. A bottom clamping sleeve is also sleeved on the bottom of the bottom support column, and a bottom clamping ring is clamped inside the bottom clamping sleeve. The bottom clamping ring is fixed on the bottom end of the bottom support column.

[0011] As a further improvement of this solution, the lower frame piece is arranged in a "匚" shape. A bottom gasket is adhesively fixed on the surface of the inner pressing piece, and a bottom gasket is also adhesively fixed on the upper top wall of the lower frame piece. A side sliding rod is fixed between the upper and lower side walls of the side of the lower frame piece, and the side sliding rod penetrates and is inserted into the side of the inner pressing piece.

[0012] As a further improvement of this solution, a limiting disc is fixed on the lower part of the bottom support column, and the limiting disc is located above the bottom clamping sleeve. A pin is threadedly inserted on the side of the limiting disc, and the inner end of the pin abuts against the outer wall of the bottom clamping sleeve.

[0013] As a further improvement of this solution, the main body of the vertical rod includes an upper support rod and a lower support rod, and the upper support rod and the lower support rod are hinged at the docking place. The upper end of the upper support rod and the lower end of the upper support column are also hinged, and the lower end of the lower support rod and the upper end of the bottom support column are also hinged. A lower hinge tongue is integrally arranged at the lower end of the upper support rod, and an upper hinge seat is integrally arranged at the upper end of the lower support rod. An assembly pin is inserted and assembled at the docking place between the lower hinge tongue and the upper hinge seat, and fastening nuts are threadedly sleeved at both ends of the assembly pin. Assembly holes corresponding to the assembly pin are opened inside both the lower hinge tongue and the upper hinge seat, and a sunken mounting groove corresponding to the fastening nut is opened on the outer wall of the upper hinge seat.

[0014] As a further improvement of this solution, pin screw heads corresponding to the torsion pieces are integrally arranged at both ends of the assembly pin, and screw head torsion blocks are integrally arranged at the outer ends of the pin screw heads. Torsion pieces are fixed on the outer wall of the fastening nut. A washer piece is filled between the docking place of the lower hinge tongue and the upper hinge seat, and the washer piece is sleeved on the outer wall of the assembly pin.

[0015] Compared with the prior art, the utility model has the following beneficial effects:

[0016] 1. In this utility model, the main body of the upright rod, with the lower clamp and the upper clamp assembly, is easily clamped next to the support carrier of the mold manufacturing equipment through the cooperation of the lower frame piece, the inner abutment piece and the lower screw. Then, with the hinged support of the upper support rod and the lower support rod, the upper clamp assembly is easily supported. The upper clamp assembly is easy to clamp the probe, and with the cooperation of the upper clamp and the inner clamp, the clamping operation is more convenient and it is also easy to quickly replace it later, making the operation and use more convenient. This facilitates stable support next to the mold manufacturing equipment and is used to assist in the support and replacement of the probe used for mold making.

[0017] 2. In this utility model, the hinged support of the upper support rod, lower support rod, bottom support column, and upper support column facilitates auxiliary pulling and adjustment of the support during assembly and use through the corresponding hinges and the cooperation of the assembly pins. After tightening the fastening nut, the hinge is limited and supported, which facilitates the adjustment and support of the shape of the main body of the upright according to the use needs. When the clamping probe is used for auxiliary work, it is easy to provide support as needed, making the operation and use more convenient and efficient, and also facilitating subsequent quick replacement and other operations. Attached Figure Description

[0018] The accompanying drawings, which are included to provide a further understanding of the present invention and form part of this application, illustrate exemplary embodiments of the present invention and, together with the description thereof, serve to explain the present invention and do not constitute an undue limitation thereof. In the drawings:

[0019] Figure 1 This is a frontal perspective view of the structure of this utility model;

[0020] Figure 2 This is a side sectional perspective view of a partial structure of the lower clamp of this utility model;

[0021] Figure 3 This is a side view of the exploded three-dimensional assembly of a partial structure of the main body of the pole of this utility model;

[0022] Figure 4 This is a side sectional perspective view of a partial structure of the upper clamping component of this utility model.

[0023] 100. Main body of the upright; 101. Upper support rod; 102. Lower support rod; 103. Lower hinge tongue; 104. Upper hinge seat; 105. Assembly hole; 106. Recessed groove; 110. Lower clamp seat; 111. Lower frame piece; 112. Inner abutment piece; 113. Lower screw; 114. Bottom retainer sleeve; 115. Bottom retainer ring; 116. Lower torsion block; 117. Lower slot; 118. Bottom washer; 119. Side slide rod; 120. Upper clamp assembly; 121. Upper vertical frame; 122. Horizontal slide plate; 123. Upper clamp 124. Head; 125. Inner clamp; 126. Spring; 127. Side slider; 128. Side groove; 130. Clamping washer; 131. Bottom support; 132. Lower ferrule; 133. Lower retaining ring; 134. Limiting plate; 140. Screw pin; 141. Assembly pin; 142. Pin head; 143. Fastening nut; 144. Torque plate; 145. Screw head torsion block; 150. Washer plate; 151. Upper support; 152. Top slide rod; 153. Top inner groove; 154. Inner pad block. Detailed Implementation

[0024] like Figure 1-4 As shown, this utility model provides a quick-change fixture for probes in mold manufacturing, including a main body 100, a lower clamping seat 110 mounted on the lower end of the main body 100, and a corresponding upper clamping assembly 120 mounted on the main body 100. A bottom support column 130 is mounted between the lower end of the main body 100 and the lower clamping seat 110, and an upper support column 150 is mounted between the lower end of the upper clamping assembly 120 and the upper end of the main body 100. The lower clamping seat 110 includes a lower frame piece 111, and an inner abutment piece 112 is provided inside the lower frame piece 111. A lower screw 113 is supported at the bottom of the inner abutment piece 112. The upper clamping assembly 120 includes an upper vertical frame 121, with a horizontal sliding plate 122 and an upper clamp 123 integrally fixed at both ends of the upper vertical frame 121. The upper support column 150 is integrally provided with a top sliding rod 151. The horizontal sliding plate 122 is sleeved on the outer wall of the top sliding rod 151, and the top of the top sliding rod 151 is equipped with an inner clamp 124 corresponding to the upper clamp 123. This facilitates the support and assembly of the upper clamping assembly 120 and the auxiliary assembly between the lower clamping seat 110 and the main body 100, and facilitates the subsequent clamping of the probe by the upper clamping assembly 120, while also facilitating support.

[0025] In a more detailed description of this embodiment, a spring 125 is sleeved on the outer wall of the top sliding rod 151. The spring 125 is located between the cross sliding plate 122 and the inner chuck 124. Clamping gaskets 128 are adhesively assembled on the inner top wall of the upper chuck 123 and the upper top wall of the inner chuck 124. A top nut 152 is threadedly sleeved on the top end of the top sliding rod 151, and the top nut 152 is located inside the inner chuck 124. A top inner groove 153 corresponding to the top nut 152 is provided inside the inner chuck 124, and an inner cushion block 154 is filled inside the top inner groove 153. Thus, during assembly and use, it is convenient for the support and assembly of the inner chuck 124. At the same time, under the elastic force of the spring 125, it is convenient to assist in抵触 the cross sliding plate 122. With the cooperation of the upper vertical frame 121, the upper chuck 123 and the inner chuck 124 are driven to cooperate to clamp the probe, making the operation and use more convenient. The inner side of the inner chuck 124 fits on the inner wall of the upper vertical frame 121. A side sliding block 126 is integrally fixed at the center of the inner side end of the inner chuck 124, and the side sliding block 126 is clamped inside the upper vertical frame 121. A side sliding groove 127 corresponding to the side sliding block 126 is provided inside the upper vertical frame 121. Thus, it is convenient for the limit between the inner chuck 124 and the upper vertical frame 121 during sliding clamping, making the sliding more stable and not easy to rotate, and making the operation and use more convenient;

[0026] In a more detailed description of this embodiment, a bottom card sleeve 114 is sleeved on the upper end of the lower screw rod 113, and the bottom card sleeve 114 is fixed on the bottom wall of the inner pressing piece 112. A bottom card ring 115 is clamped inside the bottom card sleeve 114, and the bottom card ring 115 is fixed on the top end of the lower screw rod 113. A lower torsion block 116 is integrally fixed at the bottom end of the lower screw rod 113, and a lower slot 117 is provided inside the lower torsion block 116. Similarly, a bottom card sleeve 131 is sleeved on the bottom of the bottom support column 130, and a bottom card ring 132 is clamped inside the bottom card sleeve 131. The bottom card ring 132 is fixed at the bottom end of the bottom support column 130. Thus, during assembly and use, it assists in the limit and support assembly of the lower screw rod 113 and the bottom support column 130, making the subsequent adjustment and use more convenient. It is convenient to drive the clamping between the inner pressing piece 112 and the top wall of the lower frame piece 111 by rotating the lower screw rod 113. Similarly, it is also convenient to rotate and adjust the bottom support column 130, making it more convenient to adjust the angle of the subsequent support立杆主体 100 and the upper clamping component 120. The lower frame piece 111 is arranged in a "匚" shape. A bottom gasket 118 is adhesively fixed on the surface of the inner pressing piece 112, and a bottom gasket 118 is also adhesively fixed on the top wall of the lower frame piece 111. A side sliding rod 119 is fixed between the upper and lower side walls of the lower frame piece 111, and the side sliding rod 119 penetrates and is inserted into the side of the inner pressing piece 112. Thus, during assembly and use, it is convenient to assist the stable lifting of the inner pressing piece 112, making the clamping operation more convenient. A limit disk 133 is fixed on the lower part of the bottom support column 130, and the limit disk 133 is located above the bottom card sleeve 131. A screw pin 134 is threadedly inserted on the side of the limit disk 133, and the inner end of the screw pin 134 abuts against the outer wall of the bottom card sleeve 131. Thus, it is convenient to lock and limit the bottom support column 130 after adjustment, making the operation and use more convenient; It should be noted that there may be some inaccuracies in the translation due to the possible ambiguity or lack of clear context in the original text. For example, the "抵触" in the first paragraph is translated as "抵触" for now as there is no clear equivalent in English. It may need to be adjusted according to the actual meaning.

[0027] As a more detailed embodiment, the upright body 100 includes an upper support rod 101 and a lower support rod 102, which are hinged at their joints. The upper end of the upper support rod 101 is also hinged to the lower end of the upper support column 150, and the lower end of the lower support rod 102 is also hinged to the upper end of the bottom support column 130. A lower hinge tongue 103 is integrally provided at the lower end of the upper support rod 101, and an upper hinge seat 104 is integrally provided at the upper end of the lower support rod 102. An assembly pin 140 is inserted and assembled at the joint of the lower hinge tongue 103 and the upper hinge seat 104, and fastening nuts 142 are threaded on both ends of the assembly pin 140. The lower hinge tongue 103 and the upper hinge seat 104 are both provided with assembly holes 105 corresponding to the assembly pin 140, and the outer wall of the upper hinge seat 104 is provided with fastening nuts 142. The recessed groove 106 corresponding to the nut 142 facilitates auxiliary hinge assembly according to usage needs during assembly and use, making subsequent operations more convenient. The assembly pin 140 has a pin head 141 corresponding to the torsion plate 143 integrally provided at both ends, and a screw head torsion block 144 integrally provided at the outer end of the pin head 141. The torsion plate 143 is fixed on the outer wall of the fastening nut 142. A washer 145 is filled between the lower hinge tongue 103 and the upper hinge seat 104, and the washer 145 is sleeved on the outer wall of the assembly pin 140. Thus, the upper support rod 101 and the lower support rod 102 are hinged during assembly and use. At the same time, with the cooperation of the washer 145, the friction helps to assist in relative suspension after rotation, making operation and use more convenient.

[0028] The above description is merely a preferred embodiment of this utility model and is not intended to limit the utility model in any way. Those skilled in the art can readily implement this utility model based on the accompanying drawings and the above description. However, any modifications, alterations, or equivalent variations made by those skilled in the art without departing from the scope of the utility model's technical solution, utilizing the disclosed technical content, are considered equivalent embodiments of this utility model. Furthermore, any equivalent changes, alterations, or variations made to the above embodiments based on the essential technology of this utility model are still within the protection scope of this utility model's technical solution.

Claims

1. A quick-change fixture for a probe used in mold manufacturing, comprising a support body (100), characterized in that: The lower end of the upright body (100) is equipped with a lower clamp (110), and the upper clamp assembly (120) corresponding to the upright body (100) is also equipped on the upright body (100). A bottom support column (130) is assembled between the lower end of the upright body (100) and the lower clamp (110), and an upper support column (150) is assembled between the lower end of the upper clamp assembly (120) and the upper end of the upright body (100). The lower clamp (110) includes a lower frame piece (111), and an inner abutment piece (112) is provided inside the lower frame piece (111), and the bottom of the inner abutment piece (112) is... The lower support is provided with a lower screw (113), and the lower screw (113) is threaded into the bottom wall of the lower frame (111). The upper clamping assembly (120) includes an upper vertical frame (121), and the upper and lower ends of the upper vertical frame (121) are integrally fixed with a horizontal sliding plate (122) and an upper clamp (123). The top of the upper support (150) is integrally provided with a top sliding rod (151). The horizontal sliding plate (122) is sleeved on the outer wall of the top sliding rod (151), and the top of the top sliding rod (151) is equipped with an inner clamp (124) corresponding to the upper clamp (123).

2. The quick-change fixture for probes in mold manufacturing according to claim 1, characterized in that: A spring (125) is sleeved on the outer wall of the top slide rod (151). The spring (125) is located between the horizontal slide plate (122) and the inner clamp (124). A clamping pad (128) is glued to the inner top wall of the upper clamp (123) and the upper top wall of the inner clamp (124). A top nut (152) is threaded on the top end of the top slide rod (151), and the top nut (152) is located inside the inner clamp (124). The inner clamp (124) has a top inner groove (153) corresponding to the top nut (152), and the top inner groove (153) is filled with an inner pad (154).

3. The quick-change fixture for probes in mold manufacturing according to claim 1, characterized in that: The inner clamp (124) is attached to the inner wall of the upper vertical frame (121). The inner end of the inner clamp (124) is integrally fixed with a side slider (126), and the side slider (126) is locked inside the upper vertical frame (121). The upper vertical frame (121) has a side groove (127) corresponding to the side slider (126) inside.

4. The quick-change fixture for probes in mold manufacturing according to claim 1, characterized in that: The lower screw (113) is fitted with a bottom retainer (114) at its upper end, and the bottom retainer (114) is fixed to the bottom wall of the inner abutment (112). The bottom retainer (114) is fitted with a bottom retainer ring (115) inside, and the bottom retainer ring (115) is fixed to the top of the lower screw (113). The lower screw (113) is integrally fitted with a lower twist block (116) at its bottom end, and the lower twist block (116) is fitted with a lower slot (117) inside. The bottom of the bottom support column (130) is also fitted with a lower retainer (131), and the lower retainer ring (132) is fitted inside the lower retainer (131) inside. The lower retainer ring (132) is fixed to the bottom end of the bottom support column (130).

5. A quick-change fixture for a probe used in mold manufacturing according to claim 4, characterized in that: The lower frame piece (111) is arranged in a "C" shape. A bottom gasket (118) is adhesively fixed on the surface of the inner abutting piece (112), and a bottom gasket (118) is also adhesively fixed on the upper top wall of the lower frame piece (111). A side slide rod (119) is fixed between the upper and lower walls on the side of the lower frame piece (111), and the side slide rod (119) penetrates and is inserted into the side of the inner abutting piece (112).

6. A quick-change fixture for a probe used in mold manufacturing according to claim 4, characterized in that: A limiting disk (133) is fixed at the lower part of the bottom support column (130), and the limiting disk (133) is located above the lower sleeve (131). A pin (134) is threadedly inserted on the side of the limiting disk (133), and the inner end of the pin (134) abuts against the outer wall of the lower sleeve (131).

7. A quick-change fixture for a probe used in mold manufacturing according to claim 1, characterized in that: The vertical rod main body (100) includes an upper support rod (101) and a lower support rod (102), and the upper support rod (101) and the lower support rod (102) are hinged at the butt joint. The upper end of the upper support rod (101) and the lower end of the upper support column (150) are also hinged, and the lower end of the lower support rod (102) and the upper end of the bottom support column (130) are also hinged. A lower hinge tongue (103) is integrally arranged at the lower end of the upper support rod (101), and an upper hinge seat (104) is integrally arranged at the upper end of the lower support rod (102). An assembly pin (140) is inserted and assembled at the butt joint of the lower hinge tongue (103) and the upper hinge seat (104), and fastening nuts (142) are threadedly sleeved at both ends of the assembly pin (140). Assembly holes (105) corresponding to the assembly pin (140) are respectively opened inside the lower hinge tongue (103) and the upper hinge seat (104), and a sunk mounting groove (106) corresponding to the fastening nut (142) is opened on the outer wall of the upper hinge seat (104).

8. A quick-change fixture for a probe used in mold manufacturing according to claim 7, characterized in that: Pin heads (141) corresponding to the torsion pieces (143) are integrally arranged at both ends of the assembly pin (140), and a screw head torsion block (144) is integrally arranged at the outer end of the pin head (141). Torsion pieces (143) are fixed on the outer wall of the fastening nut (142). A washer piece (145) is filled between the butt joints of the lower hinge tongue (103) and the upper hinge seat (104), and the washer piece (145) is sleeved on the outer wall of the assembly pin (140).